dm: ddr: socfpga: fix gen5 ddr driver to not use bss
This driver uses bss from SPL board_init_f(). Change it to move all the
data from bss to a common struct allocated on the stack (64 byte).
In addition to saving 28 bytes of bss, the code even gets 264 bytes
smaller.
Signed-off-by: Simon Goldschmidt <simon.k.r.goldschmidt@gmail.com>
diff --git a/drivers/ddr/altera/sequencer.c b/drivers/ddr/altera/sequencer.c
index 0e45262..b85b56e 100644
--- a/drivers/ddr/altera/sequencer.c
+++ b/drivers/ddr/altera/sequencer.c
@@ -9,31 +9,27 @@
#include <errno.h>
#include "sequencer.h"
-static struct socfpga_sdr_rw_load_manager *sdr_rw_load_mgr_regs =
+static const struct socfpga_sdr_rw_load_manager *sdr_rw_load_mgr_regs =
(struct socfpga_sdr_rw_load_manager *)
(SDR_PHYGRP_RWMGRGRP_ADDRESS | 0x800);
-static struct socfpga_sdr_rw_load_jump_manager *sdr_rw_load_jump_mgr_regs =
- (struct socfpga_sdr_rw_load_jump_manager *)
+static const struct socfpga_sdr_rw_load_jump_manager *sdr_rw_load_jump_mgr_regs
+ = (struct socfpga_sdr_rw_load_jump_manager *)
(SDR_PHYGRP_RWMGRGRP_ADDRESS | 0xC00);
-static struct socfpga_sdr_reg_file *sdr_reg_file =
+static const struct socfpga_sdr_reg_file *sdr_reg_file =
(struct socfpga_sdr_reg_file *)SDR_PHYGRP_REGFILEGRP_ADDRESS;
-static struct socfpga_sdr_scc_mgr *sdr_scc_mgr =
+static const struct socfpga_sdr_scc_mgr *sdr_scc_mgr =
(struct socfpga_sdr_scc_mgr *)
(SDR_PHYGRP_SCCGRP_ADDRESS | 0xe00);
-static struct socfpga_phy_mgr_cmd *phy_mgr_cmd =
+static const struct socfpga_phy_mgr_cmd *phy_mgr_cmd =
(struct socfpga_phy_mgr_cmd *)SDR_PHYGRP_PHYMGRGRP_ADDRESS;
-static struct socfpga_phy_mgr_cfg *phy_mgr_cfg =
+static const struct socfpga_phy_mgr_cfg *phy_mgr_cfg =
(struct socfpga_phy_mgr_cfg *)
(SDR_PHYGRP_PHYMGRGRP_ADDRESS | 0x40);
-static struct socfpga_data_mgr *data_mgr =
+static const struct socfpga_data_mgr *data_mgr =
(struct socfpga_data_mgr *)SDR_PHYGRP_DATAMGRGRP_ADDRESS;
-static struct socfpga_sdr_ctrl *sdr_ctrl =
+static const struct socfpga_sdr_ctrl *sdr_ctrl =
(struct socfpga_sdr_ctrl *)SDR_CTRLGRP_ADDRESS;
-const struct socfpga_sdram_rw_mgr_config *rwcfg;
-const struct socfpga_sdram_io_config *iocfg;
-const struct socfpga_sdram_misc_config *misccfg;
-
#define DELTA_D 1
/*
@@ -55,37 +51,20 @@
#define STATIC_CALIB_STEPS (STATIC_IN_RTL_SIM | CALIB_SKIP_FULL_TEST | \
STATIC_SKIP_DELAY_LOOPS)
-/* calibration steps requested by the rtl */
-static u16 dyn_calib_steps;
-
-/*
- * To make CALIB_SKIP_DELAY_LOOPS a dynamic conditional option
- * instead of static, we use boolean logic to select between
- * non-skip and skip values
- *
- * The mask is set to include all bits when not-skipping, but is
- * zero when skipping
- */
-
-static u16 skip_delay_mask; /* mask off bits when skipping/not-skipping */
-
#define SKIP_DELAY_LOOP_VALUE_OR_ZERO(non_skip_value) \
- ((non_skip_value) & skip_delay_mask)
+ ((non_skip_value) & seq->skip_delay_mask)
-static struct gbl_type *gbl;
-static struct param_type *param;
-
-static void set_failing_group_stage(u32 group, u32 stage,
- u32 substage)
+static void set_failing_group_stage(struct socfpga_sdrseq *seq,
+ u32 group, u32 stage, u32 substage)
{
/*
* Only set the global stage if there was not been any other
* failing group
*/
- if (gbl->error_stage == CAL_STAGE_NIL) {
- gbl->error_substage = substage;
- gbl->error_stage = stage;
- gbl->error_group = group;
+ if (seq->gbl.error_stage == CAL_STAGE_NIL) {
+ seq->gbl.error_substage = substage;
+ seq->gbl.error_stage = stage;
+ seq->gbl.error_group = group;
}
}
@@ -110,7 +89,7 @@
*
* Initialize PHY Manager.
*/
-static void phy_mgr_initialize(void)
+static void phy_mgr_initialize(struct socfpga_sdrseq *seq)
{
u32 ratio;
@@ -132,15 +111,17 @@
writel(0, &phy_mgr_cfg->cal_debug_info);
/* Init params only if we do NOT skip calibration. */
- if ((dyn_calib_steps & CALIB_SKIP_ALL) == CALIB_SKIP_ALL)
+ if ((seq->dyn_calib_steps & CALIB_SKIP_ALL) == CALIB_SKIP_ALL)
return;
- ratio = rwcfg->mem_dq_per_read_dqs /
- rwcfg->mem_virtual_groups_per_read_dqs;
- param->read_correct_mask_vg = (1 << ratio) - 1;
- param->write_correct_mask_vg = (1 << ratio) - 1;
- param->read_correct_mask = (1 << rwcfg->mem_dq_per_read_dqs) - 1;
- param->write_correct_mask = (1 << rwcfg->mem_dq_per_write_dqs) - 1;
+ ratio = seq->rwcfg->mem_dq_per_read_dqs /
+ seq->rwcfg->mem_virtual_groups_per_read_dqs;
+ seq->param.read_correct_mask_vg = (1 << ratio) - 1;
+ seq->param.write_correct_mask_vg = (1 << ratio) - 1;
+ seq->param.read_correct_mask = (1 << seq->rwcfg->mem_dq_per_read_dqs)
+ - 1;
+ seq->param.write_correct_mask = (1 << seq->rwcfg->mem_dq_per_write_dqs)
+ - 1;
}
/**
@@ -150,7 +131,8 @@
*
* Set Rank and ODT mask (On-Die Termination).
*/
-static void set_rank_and_odt_mask(const u32 rank, const u32 odt_mode)
+static void set_rank_and_odt_mask(struct socfpga_sdrseq *seq,
+ const u32 rank, const u32 odt_mode)
{
u32 odt_mask_0 = 0;
u32 odt_mask_1 = 0;
@@ -160,14 +142,14 @@
odt_mask_0 = 0x0;
odt_mask_1 = 0x0;
} else { /* RW_MGR_ODT_MODE_READ_WRITE */
- switch (rwcfg->mem_number_of_ranks) {
+ switch (seq->rwcfg->mem_number_of_ranks) {
case 1: /* 1 Rank */
/* Read: ODT = 0 ; Write: ODT = 1 */
odt_mask_0 = 0x0;
odt_mask_1 = 0x1;
break;
case 2: /* 2 Ranks */
- if (rwcfg->mem_number_of_cs_per_dimm == 1) {
+ if (seq->rwcfg->mem_number_of_cs_per_dimm == 1) {
/*
* - Dual-Slot , Single-Rank (1 CS per DIMM)
* OR
@@ -307,16 +289,18 @@
scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET, dq_in_group, delay);
}
-static void scc_mgr_set_dqs_io_in_delay(u32 delay)
+static void scc_mgr_set_dqs_io_in_delay(struct socfpga_sdrseq *seq,
+ u32 delay)
{
- scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET, rwcfg->mem_dq_per_write_dqs,
- delay);
+ scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET,
+ seq->rwcfg->mem_dq_per_write_dqs, delay);
}
-static void scc_mgr_set_dm_in_delay(u32 dm, u32 delay)
+static void scc_mgr_set_dm_in_delay(struct socfpga_sdrseq *seq, u32 dm,
+ u32 delay)
{
scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET,
- rwcfg->mem_dq_per_write_dqs + 1 + dm,
+ seq->rwcfg->mem_dq_per_write_dqs + 1 + dm,
delay);
}
@@ -325,16 +309,18 @@
scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET, dq_in_group, delay);
}
-static void scc_mgr_set_dqs_out1_delay(u32 delay)
+static void scc_mgr_set_dqs_out1_delay(struct socfpga_sdrseq *seq,
+ u32 delay)
{
- scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET, rwcfg->mem_dq_per_write_dqs,
- delay);
+ scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET,
+ seq->rwcfg->mem_dq_per_write_dqs, delay);
}
-static void scc_mgr_set_dm_out1_delay(u32 dm, u32 delay)
+static void scc_mgr_set_dm_out1_delay(struct socfpga_sdrseq *seq, u32 dm,
+ u32 delay)
{
scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET,
- rwcfg->mem_dq_per_write_dqs + 1 + dm,
+ seq->rwcfg->mem_dq_per_write_dqs + 1 + dm,
delay);
}
@@ -372,12 +358,13 @@
* This function sets the SCC Manager (Scan Chain Control Manager) register
* and optionally triggers the SCC update for all ranks.
*/
-static void scc_mgr_set_all_ranks(const u32 off, const u32 grp, const u32 val,
+static void scc_mgr_set_all_ranks(struct socfpga_sdrseq *seq,
+ const u32 off, const u32 grp, const u32 val,
const int update)
{
u32 r;
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
scc_mgr_set(off, grp, val);
@@ -388,7 +375,8 @@
}
}
-static void scc_mgr_set_dqs_en_phase_all_ranks(u32 read_group, u32 phase)
+static void scc_mgr_set_dqs_en_phase_all_ranks(struct socfpga_sdrseq *seq,
+ u32 read_group, u32 phase)
{
/*
* USER although the h/w doesn't support different phases per
@@ -398,12 +386,12 @@
* for efficiency, the scan chain update should occur only
* once to sr0.
*/
- scc_mgr_set_all_ranks(SCC_MGR_DQS_EN_PHASE_OFFSET,
+ scc_mgr_set_all_ranks(seq, SCC_MGR_DQS_EN_PHASE_OFFSET,
read_group, phase, 0);
}
-static void scc_mgr_set_dqdqs_output_phase_all_ranks(u32 write_group,
- u32 phase)
+static void scc_mgr_set_dqdqs_output_phase_all_ranks(struct socfpga_sdrseq *seq,
+ u32 write_group, u32 phase)
{
/*
* USER although the h/w doesn't support different phases per
@@ -413,12 +401,12 @@
* for efficiency, the scan chain update should occur only
* once to sr0.
*/
- scc_mgr_set_all_ranks(SCC_MGR_DQDQS_OUT_PHASE_OFFSET,
+ scc_mgr_set_all_ranks(seq, SCC_MGR_DQDQS_OUT_PHASE_OFFSET,
write_group, phase, 0);
}
-static void scc_mgr_set_dqs_en_delay_all_ranks(u32 read_group,
- u32 delay)
+static void scc_mgr_set_dqs_en_delay_all_ranks(struct socfpga_sdrseq *seq,
+ u32 read_group, u32 delay)
{
/*
* In shadow register mode, the T11 settings are stored in
@@ -428,7 +416,7 @@
* select_shadow_regs_for_update with update_scan_chains
* set to 0.
*/
- scc_mgr_set_all_ranks(SCC_MGR_DQS_EN_DELAY_OFFSET,
+ scc_mgr_set_all_ranks(seq, SCC_MGR_DQS_EN_DELAY_OFFSET,
read_group, delay, 1);
}
@@ -439,10 +427,11 @@
*
* This function sets the OCT output delay in SCC manager.
*/
-static void scc_mgr_set_oct_out1_delay(const u32 write_group, const u32 delay)
+static void scc_mgr_set_oct_out1_delay(struct socfpga_sdrseq *seq,
+ const u32 write_group, const u32 delay)
{
- const int ratio = rwcfg->mem_if_read_dqs_width /
- rwcfg->mem_if_write_dqs_width;
+ const int ratio = seq->rwcfg->mem_if_read_dqs_width /
+ seq->rwcfg->mem_if_write_dqs_width;
const int base = write_group * ratio;
int i;
/*
@@ -490,7 +479,7 @@
*
* Zero all DQS config.
*/
-static void scc_mgr_zero_all(void)
+static void scc_mgr_zero_all(struct socfpga_sdrseq *seq)
{
int i, r;
@@ -498,23 +487,26 @@
* USER Zero all DQS config settings, across all groups and all
* shadow registers
*/
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
- for (i = 0; i < rwcfg->mem_if_read_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_read_dqs_width; i++) {
/*
* The phases actually don't exist on a per-rank basis,
* but there's no harm updating them several times, so
* let's keep the code simple.
*/
- scc_mgr_set_dqs_bus_in_delay(i, iocfg->dqs_in_reserve);
+ scc_mgr_set_dqs_bus_in_delay(i,
+ seq->iocfg->dqs_in_reserve
+ );
scc_mgr_set_dqs_en_phase(i, 0);
scc_mgr_set_dqs_en_delay(i, 0);
}
- for (i = 0; i < rwcfg->mem_if_write_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_write_dqs_width; i++) {
scc_mgr_set_dqdqs_output_phase(i, 0);
/* Arria V/Cyclone V don't have out2. */
- scc_mgr_set_oct_out1_delay(i, iocfg->dqs_out_reserve);
+ scc_mgr_set_oct_out1_delay(seq, i,
+ seq->iocfg->dqs_out_reserve);
}
}
@@ -551,10 +543,11 @@
*
* Load DQS settings for Write Group, do not trigger SCC update.
*/
-static void scc_mgr_load_dqs_for_write_group(const u32 write_group)
+static void scc_mgr_load_dqs_for_write_group(struct socfpga_sdrseq *seq,
+ const u32 write_group)
{
- const int ratio = rwcfg->mem_if_read_dqs_width /
- rwcfg->mem_if_write_dqs_width;
+ const int ratio = seq->rwcfg->mem_if_read_dqs_width /
+ seq->rwcfg->mem_if_write_dqs_width;
const int base = write_group * ratio;
int i;
/*
@@ -573,14 +566,15 @@
*
* Zero DQ, DM, DQS and OCT configs for a group.
*/
-static void scc_mgr_zero_group(const u32 write_group, const int out_only)
+static void scc_mgr_zero_group(struct socfpga_sdrseq *seq,
+ const u32 write_group, const int out_only)
{
int i, r;
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
/* Zero all DQ config settings. */
- for (i = 0; i < rwcfg->mem_dq_per_write_dqs; i++) {
+ for (i = 0; i < seq->rwcfg->mem_dq_per_write_dqs; i++) {
scc_mgr_set_dq_out1_delay(i, 0);
if (!out_only)
scc_mgr_set_dq_in_delay(i, 0);
@@ -592,8 +586,8 @@
/* Zero all DM config settings. */
for (i = 0; i < RW_MGR_NUM_DM_PER_WRITE_GROUP; i++) {
if (!out_only)
- scc_mgr_set_dm_in_delay(i, 0);
- scc_mgr_set_dm_out1_delay(i, 0);
+ scc_mgr_set_dm_in_delay(seq, i, 0);
+ scc_mgr_set_dm_out1_delay(seq, i, 0);
}
/* Multicast to all DM enables. */
@@ -601,12 +595,13 @@
/* Zero all DQS IO settings. */
if (!out_only)
- scc_mgr_set_dqs_io_in_delay(0);
+ scc_mgr_set_dqs_io_in_delay(seq, 0);
/* Arria V/Cyclone V don't have out2. */
- scc_mgr_set_dqs_out1_delay(iocfg->dqs_out_reserve);
- scc_mgr_set_oct_out1_delay(write_group, iocfg->dqs_out_reserve);
- scc_mgr_load_dqs_for_write_group(write_group);
+ scc_mgr_set_dqs_out1_delay(seq, seq->iocfg->dqs_out_reserve);
+ scc_mgr_set_oct_out1_delay(seq, write_group,
+ seq->iocfg->dqs_out_reserve);
+ scc_mgr_load_dqs_for_write_group(seq, write_group);
/* Multicast to all DQS IO enables (only 1 in total). */
writel(0, &sdr_scc_mgr->dqs_io_ena);
@@ -620,69 +615,76 @@
* apply and load a particular input delay for the DQ pins in a group
* group_bgn is the index of the first dq pin (in the write group)
*/
-static void scc_mgr_apply_group_dq_in_delay(u32 group_bgn, u32 delay)
+static void scc_mgr_apply_group_dq_in_delay(struct socfpga_sdrseq *seq,
+ u32 group_bgn, u32 delay)
{
u32 i, p;
- for (i = 0, p = group_bgn; i < rwcfg->mem_dq_per_read_dqs; i++, p++) {
+ for (i = 0, p = group_bgn; i < seq->rwcfg->mem_dq_per_read_dqs;
+ i++, p++) {
scc_mgr_set_dq_in_delay(p, delay);
scc_mgr_load_dq(p);
}
}
/**
- * scc_mgr_apply_group_dq_out1_delay() - Apply and load an output delay for the DQ pins in a group
+ * scc_mgr_apply_group_dq_out1_delay() - Apply and load an output delay for the
+ * DQ pins in a group
* @delay: Delay value
*
* Apply and load a particular output delay for the DQ pins in a group.
*/
-static void scc_mgr_apply_group_dq_out1_delay(const u32 delay)
+static void scc_mgr_apply_group_dq_out1_delay(struct socfpga_sdrseq *seq,
+ const u32 delay)
{
int i;
- for (i = 0; i < rwcfg->mem_dq_per_write_dqs; i++) {
+ for (i = 0; i < seq->rwcfg->mem_dq_per_write_dqs; i++) {
scc_mgr_set_dq_out1_delay(i, delay);
scc_mgr_load_dq(i);
}
}
/* apply and load a particular output delay for the DM pins in a group */
-static void scc_mgr_apply_group_dm_out1_delay(u32 delay1)
+static void scc_mgr_apply_group_dm_out1_delay(struct socfpga_sdrseq *seq,
+ u32 delay1)
{
u32 i;
for (i = 0; i < RW_MGR_NUM_DM_PER_WRITE_GROUP; i++) {
- scc_mgr_set_dm_out1_delay(i, delay1);
+ scc_mgr_set_dm_out1_delay(seq, i, delay1);
scc_mgr_load_dm(i);
}
}
/* apply and load delay on both DQS and OCT out1 */
-static void scc_mgr_apply_group_dqs_io_and_oct_out1(u32 write_group,
- u32 delay)
+static void scc_mgr_apply_group_dqs_io_and_oct_out1(struct socfpga_sdrseq *seq,
+ u32 write_group, u32 delay)
{
- scc_mgr_set_dqs_out1_delay(delay);
+ scc_mgr_set_dqs_out1_delay(seq, delay);
scc_mgr_load_dqs_io();
- scc_mgr_set_oct_out1_delay(write_group, delay);
- scc_mgr_load_dqs_for_write_group(write_group);
+ scc_mgr_set_oct_out1_delay(seq, write_group, delay);
+ scc_mgr_load_dqs_for_write_group(seq, write_group);
}
/**
- * scc_mgr_apply_group_all_out_delay_add() - Apply a delay to the entire output side: DQ, DM, DQS, OCT
+ * scc_mgr_apply_group_all_out_delay_add() - Apply a delay to the entire output
+ * side: DQ, DM, DQS, OCT
* @write_group: Write group
* @delay: Delay value
*
* Apply a delay to the entire output side: DQ, DM, DQS, OCT.
*/
-static void scc_mgr_apply_group_all_out_delay_add(const u32 write_group,
+static void scc_mgr_apply_group_all_out_delay_add(struct socfpga_sdrseq *seq,
+ const u32 write_group,
const u32 delay)
{
u32 i, new_delay;
/* DQ shift */
- for (i = 0; i < rwcfg->mem_dq_per_write_dqs; i++)
+ for (i = 0; i < seq->rwcfg->mem_dq_per_write_dqs; i++)
scc_mgr_load_dq(i);
/* DM shift */
@@ -691,49 +693,51 @@
/* DQS shift */
new_delay = READ_SCC_DQS_IO_OUT2_DELAY + delay;
- if (new_delay > iocfg->io_out2_delay_max) {
+ if (new_delay > seq->iocfg->io_out2_delay_max) {
debug_cond(DLEVEL >= 1,
"%s:%d (%u, %u) DQS: %u > %d; adding %u to OUT1\n",
__func__, __LINE__, write_group, delay, new_delay,
- iocfg->io_out2_delay_max,
- new_delay - iocfg->io_out2_delay_max);
- new_delay -= iocfg->io_out2_delay_max;
- scc_mgr_set_dqs_out1_delay(new_delay);
+ seq->iocfg->io_out2_delay_max,
+ new_delay - seq->iocfg->io_out2_delay_max);
+ new_delay -= seq->iocfg->io_out2_delay_max;
+ scc_mgr_set_dqs_out1_delay(seq, new_delay);
}
scc_mgr_load_dqs_io();
/* OCT shift */
new_delay = READ_SCC_OCT_OUT2_DELAY + delay;
- if (new_delay > iocfg->io_out2_delay_max) {
+ if (new_delay > seq->iocfg->io_out2_delay_max) {
debug_cond(DLEVEL >= 1,
"%s:%d (%u, %u) DQS: %u > %d; adding %u to OUT1\n",
__func__, __LINE__, write_group, delay,
- new_delay, iocfg->io_out2_delay_max,
- new_delay - iocfg->io_out2_delay_max);
- new_delay -= iocfg->io_out2_delay_max;
- scc_mgr_set_oct_out1_delay(write_group, new_delay);
+ new_delay, seq->iocfg->io_out2_delay_max,
+ new_delay - seq->iocfg->io_out2_delay_max);
+ new_delay -= seq->iocfg->io_out2_delay_max;
+ scc_mgr_set_oct_out1_delay(seq, write_group, new_delay);
}
- scc_mgr_load_dqs_for_write_group(write_group);
+ scc_mgr_load_dqs_for_write_group(seq, write_group);
}
/**
- * scc_mgr_apply_group_all_out_delay_add() - Apply a delay to the entire output side to all ranks
+ * scc_mgr_apply_group_all_out_delay_add() - Apply a delay to the entire output
+ * side to all ranks
* @write_group: Write group
* @delay: Delay value
*
* Apply a delay to the entire output side (DQ, DM, DQS, OCT) to all ranks.
*/
static void
-scc_mgr_apply_group_all_out_delay_add_all_ranks(const u32 write_group,
+scc_mgr_apply_group_all_out_delay_add_all_ranks(struct socfpga_sdrseq *seq,
+ const u32 write_group,
const u32 delay)
{
int r;
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
- scc_mgr_apply_group_all_out_delay_add(write_group, delay);
+ scc_mgr_apply_group_all_out_delay_add(seq, write_group, delay);
writel(0, &sdr_scc_mgr->update);
}
}
@@ -744,7 +748,7 @@
* Optimization used to recover some slots in ddr3 inst_rom could be
* applied to other protocols if we wanted to
*/
-static void set_jump_as_return(void)
+static void set_jump_as_return(struct socfpga_sdrseq *seq)
{
/*
* To save space, we replace return with jump to special shared
@@ -752,7 +756,7 @@
* we always jump.
*/
writel(0xff, &sdr_rw_load_mgr_regs->load_cntr0);
- writel(rwcfg->rreturn, &sdr_rw_load_jump_mgr_regs->load_jump_add0);
+ writel(seq->rwcfg->rreturn, &sdr_rw_load_jump_mgr_regs->load_jump_add0);
}
/**
@@ -761,7 +765,8 @@
*
* Delay for N memory clocks.
*/
-static void delay_for_n_mem_clocks(const u32 clocks)
+static void delay_for_n_mem_clocks(struct socfpga_sdrseq *seq,
+ const u32 clocks)
{
u32 afi_clocks;
u16 c_loop;
@@ -771,7 +776,7 @@
debug("%s:%d: clocks=%u ... start\n", __func__, __LINE__, clocks);
/* Scale (rounding up) to get afi clocks. */
- afi_clocks = DIV_ROUND_UP(clocks, misccfg->afi_rate_ratio);
+ afi_clocks = DIV_ROUND_UP(clocks, seq->misccfg->afi_rate_ratio);
if (afi_clocks) /* Temporary underflow protection */
afi_clocks--;
@@ -807,10 +812,10 @@
writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(inner),
&sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->idle_loop1,
+ writel(seq->rwcfg->idle_loop1,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
- writel(rwcfg->idle_loop1, SDR_PHYGRP_RWMGRGRP_ADDRESS |
+ writel(seq->rwcfg->idle_loop1, SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET);
} else {
writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(inner),
@@ -819,14 +824,14 @@
writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(outer),
&sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->idle_loop2,
+ writel(seq->rwcfg->idle_loop2,
&sdr_rw_load_jump_mgr_regs->load_jump_add0);
- writel(rwcfg->idle_loop2,
+ writel(seq->rwcfg->idle_loop2,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
do {
- writel(rwcfg->idle_loop2,
+ writel(seq->rwcfg->idle_loop2,
SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET);
} while (c_loop-- != 0);
@@ -843,7 +848,8 @@
*
* Load instruction registers.
*/
-static void rw_mgr_mem_init_load_regs(u32 cntr0, u32 cntr1, u32 cntr2, u32 jump)
+static void rw_mgr_mem_init_load_regs(struct socfpga_sdrseq *seq,
+ u32 cntr0, u32 cntr1, u32 cntr2, u32 jump)
{
u32 grpaddr = SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET;
@@ -873,58 +879,59 @@
*
* Load user calibration values and optionally precharge the banks.
*/
-static void rw_mgr_mem_load_user(const u32 fin1, const u32 fin2,
+static void rw_mgr_mem_load_user(struct socfpga_sdrseq *seq,
+ const u32 fin1, const u32 fin2,
const int precharge)
{
u32 grpaddr = SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET;
u32 r;
- for (r = 0; r < rwcfg->mem_number_of_ranks; r++) {
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks; r++) {
/* set rank */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_OFF);
/* precharge all banks ... */
if (precharge)
- writel(rwcfg->precharge_all, grpaddr);
+ writel(seq->rwcfg->precharge_all, grpaddr);
/*
* USER Use Mirror-ed commands for odd ranks if address
* mirrorring is on
*/
- if ((rwcfg->mem_address_mirroring >> r) & 0x1) {
- set_jump_as_return();
- writel(rwcfg->mrs2_mirr, grpaddr);
- delay_for_n_mem_clocks(4);
- set_jump_as_return();
- writel(rwcfg->mrs3_mirr, grpaddr);
- delay_for_n_mem_clocks(4);
- set_jump_as_return();
- writel(rwcfg->mrs1_mirr, grpaddr);
- delay_for_n_mem_clocks(4);
- set_jump_as_return();
+ if ((seq->rwcfg->mem_address_mirroring >> r) & 0x1) {
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs2_mirr, grpaddr);
+ delay_for_n_mem_clocks(seq, 4);
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs3_mirr, grpaddr);
+ delay_for_n_mem_clocks(seq, 4);
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs1_mirr, grpaddr);
+ delay_for_n_mem_clocks(seq, 4);
+ set_jump_as_return(seq);
writel(fin1, grpaddr);
} else {
- set_jump_as_return();
- writel(rwcfg->mrs2, grpaddr);
- delay_for_n_mem_clocks(4);
- set_jump_as_return();
- writel(rwcfg->mrs3, grpaddr);
- delay_for_n_mem_clocks(4);
- set_jump_as_return();
- writel(rwcfg->mrs1, grpaddr);
- set_jump_as_return();
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs2, grpaddr);
+ delay_for_n_mem_clocks(seq, 4);
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs3, grpaddr);
+ delay_for_n_mem_clocks(seq, 4);
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->mrs1, grpaddr);
+ set_jump_as_return(seq);
writel(fin2, grpaddr);
}
if (precharge)
continue;
- set_jump_as_return();
- writel(rwcfg->zqcl, grpaddr);
+ set_jump_as_return(seq);
+ writel(seq->rwcfg->zqcl, grpaddr);
/* tZQinit = tDLLK = 512 ck cycles */
- delay_for_n_mem_clocks(512);
+ delay_for_n_mem_clocks(seq, 512);
}
}
@@ -933,7 +940,7 @@
*
* Initialize RW Manager.
*/
-static void rw_mgr_mem_initialize(void)
+static void rw_mgr_mem_initialize(struct socfpga_sdrseq *seq)
{
debug("%s:%d\n", __func__, __LINE__);
@@ -964,10 +971,10 @@
* One possible solution is n = 0 , a = 256 , b = 106 => a = FF,
* b = 6A
*/
- rw_mgr_mem_init_load_regs(misccfg->tinit_cntr0_val,
- misccfg->tinit_cntr1_val,
- misccfg->tinit_cntr2_val,
- rwcfg->init_reset_0_cke_0);
+ rw_mgr_mem_init_load_regs(seq, seq->misccfg->tinit_cntr0_val,
+ seq->misccfg->tinit_cntr1_val,
+ seq->misccfg->tinit_cntr2_val,
+ seq->rwcfg->init_reset_0_cke_0);
/* Indicate that memory is stable. */
writel(1, &phy_mgr_cfg->reset_mem_stbl);
@@ -986,18 +993,18 @@
* One possible solution is n = 2 , a = 131 , b = 256 => a = 83,
* b = FF
*/
- rw_mgr_mem_init_load_regs(misccfg->treset_cntr0_val,
- misccfg->treset_cntr1_val,
- misccfg->treset_cntr2_val,
- rwcfg->init_reset_1_cke_0);
+ rw_mgr_mem_init_load_regs(seq, seq->misccfg->treset_cntr0_val,
+ seq->misccfg->treset_cntr1_val,
+ seq->misccfg->treset_cntr2_val,
+ seq->rwcfg->init_reset_1_cke_0);
/* Bring up clock enable. */
/* tXRP < 250 ck cycles */
- delay_for_n_mem_clocks(250);
+ delay_for_n_mem_clocks(seq, 250);
- rw_mgr_mem_load_user(rwcfg->mrs0_dll_reset_mirr, rwcfg->mrs0_dll_reset,
- 0);
+ rw_mgr_mem_load_user(seq, seq->rwcfg->mrs0_dll_reset_mirr,
+ seq->rwcfg->mrs0_dll_reset, 0);
}
/**
@@ -1006,9 +1013,10 @@
* At the end of calibration we have to program the user settings in
* and hand off the memory to the user.
*/
-static void rw_mgr_mem_handoff(void)
+static void rw_mgr_mem_handoff(struct socfpga_sdrseq *seq)
{
- rw_mgr_mem_load_user(rwcfg->mrs0_user_mirr, rwcfg->mrs0_user, 1);
+ rw_mgr_mem_load_user(seq, seq->rwcfg->mrs0_user_mirr,
+ seq->rwcfg->mrs0_user, 1);
/*
* Need to wait tMOD (12CK or 15ns) time before issuing other
* commands, but we will have plenty of NIOS cycles before actual
@@ -1024,12 +1032,12 @@
* Issue write test command. Two variants are provided, one that just tests
* a write pattern and another that tests datamask functionality.
*/
-static void rw_mgr_mem_calibrate_write_test_issue(u32 group,
- u32 test_dm)
+static void rw_mgr_mem_calibrate_write_test_issue(struct socfpga_sdrseq *seq,
+ u32 group, u32 test_dm)
{
const u32 quick_write_mode =
(STATIC_CALIB_STEPS & CALIB_SKIP_WRITES) &&
- misccfg->enable_super_quick_calibration;
+ seq->misccfg->enable_super_quick_calibration;
u32 mcc_instruction;
u32 rw_wl_nop_cycles;
@@ -1059,7 +1067,7 @@
* one counter left to issue this command in "multiple-group" mode
*/
- rw_wl_nop_cycles = gbl->rw_wl_nop_cycles;
+ rw_wl_nop_cycles = seq->gbl.rw_wl_nop_cycles;
if (rw_wl_nop_cycles == -1) {
/*
@@ -1072,16 +1080,16 @@
/* CNTR 3 - Not used */
if (test_dm) {
- mcc_instruction = rwcfg->lfsr_wr_rd_dm_bank_0_wl_1;
- writel(rwcfg->lfsr_wr_rd_dm_bank_0_data,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_dm_bank_0_wl_1;
+ writel(seq->rwcfg->lfsr_wr_rd_dm_bank_0_data,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
- writel(rwcfg->lfsr_wr_rd_dm_bank_0_nop,
+ writel(seq->rwcfg->lfsr_wr_rd_dm_bank_0_nop,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
} else {
- mcc_instruction = rwcfg->lfsr_wr_rd_bank_0_wl_1;
- writel(rwcfg->lfsr_wr_rd_bank_0_data,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_bank_0_wl_1;
+ writel(seq->rwcfg->lfsr_wr_rd_bank_0_data,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
- writel(rwcfg->lfsr_wr_rd_bank_0_nop,
+ writel(seq->rwcfg->lfsr_wr_rd_bank_0_nop,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
}
} else if (rw_wl_nop_cycles == 0) {
@@ -1094,12 +1102,12 @@
/* CNTR 3 - Not used */
if (test_dm) {
- mcc_instruction = rwcfg->lfsr_wr_rd_dm_bank_0;
- writel(rwcfg->lfsr_wr_rd_dm_bank_0_dqs,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_dm_bank_0;
+ writel(seq->rwcfg->lfsr_wr_rd_dm_bank_0_dqs,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
} else {
- mcc_instruction = rwcfg->lfsr_wr_rd_bank_0;
- writel(rwcfg->lfsr_wr_rd_bank_0_dqs,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_bank_0;
+ writel(seq->rwcfg->lfsr_wr_rd_bank_0_dqs,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
}
} else {
@@ -1117,12 +1125,12 @@
*/
writel(rw_wl_nop_cycles - 1, &sdr_rw_load_mgr_regs->load_cntr3);
if (test_dm) {
- mcc_instruction = rwcfg->lfsr_wr_rd_dm_bank_0;
- writel(rwcfg->lfsr_wr_rd_dm_bank_0_nop,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_dm_bank_0;
+ writel(seq->rwcfg->lfsr_wr_rd_dm_bank_0_nop,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
} else {
- mcc_instruction = rwcfg->lfsr_wr_rd_bank_0;
- writel(rwcfg->lfsr_wr_rd_bank_0_nop,
+ mcc_instruction = seq->rwcfg->lfsr_wr_rd_bank_0;
+ writel(seq->rwcfg->lfsr_wr_rd_bank_0_nop,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
}
}
@@ -1144,10 +1152,10 @@
writel(0x30, &sdr_rw_load_mgr_regs->load_cntr1);
if (test_dm) {
- writel(rwcfg->lfsr_wr_rd_dm_bank_0_wait,
+ writel(seq->rwcfg->lfsr_wr_rd_dm_bank_0_wait,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
} else {
- writel(rwcfg->lfsr_wr_rd_bank_0_wait,
+ writel(seq->rwcfg->lfsr_wr_rd_bank_0_wait,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
}
@@ -1157,7 +1165,8 @@
}
/**
- * rw_mgr_mem_calibrate_write_test() - Test writes, check for single/multiple pass
+ * rw_mgr_mem_calibrate_write_test() - Test writes, check for single/multiple
+ * pass
* @rank_bgn: Rank number
* @write_group: Write Group
* @use_dm: Use DM
@@ -1168,36 +1177,38 @@
* Test writes, can check for a single bit pass or multiple bit pass.
*/
static int
-rw_mgr_mem_calibrate_write_test(const u32 rank_bgn, const u32 write_group,
+rw_mgr_mem_calibrate_write_test(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn, const u32 write_group,
const u32 use_dm, const u32 all_correct,
u32 *bit_chk, const u32 all_ranks)
{
const u32 rank_end = all_ranks ?
- rwcfg->mem_number_of_ranks :
+ seq->rwcfg->mem_number_of_ranks :
(rank_bgn + NUM_RANKS_PER_SHADOW_REG);
- const u32 shift_ratio = rwcfg->mem_dq_per_write_dqs /
- rwcfg->mem_virtual_groups_per_write_dqs;
- const u32 correct_mask_vg = param->write_correct_mask_vg;
+ const u32 shift_ratio = seq->rwcfg->mem_dq_per_write_dqs /
+ seq->rwcfg->mem_virtual_groups_per_write_dqs;
+ const u32 correct_mask_vg = seq->param.write_correct_mask_vg;
- u32 tmp_bit_chk, base_rw_mgr;
+ u32 tmp_bit_chk, base_rw_mgr, group;
int vg, r;
- *bit_chk = param->write_correct_mask;
+ *bit_chk = seq->param.write_correct_mask;
for (r = rank_bgn; r < rank_end; r++) {
/* Set rank */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_READ_WRITE);
tmp_bit_chk = 0;
- for (vg = rwcfg->mem_virtual_groups_per_write_dqs - 1;
+ for (vg = seq->rwcfg->mem_virtual_groups_per_write_dqs - 1;
vg >= 0; vg--) {
/* Reset the FIFOs to get pointers to known state. */
writel(0, &phy_mgr_cmd->fifo_reset);
- rw_mgr_mem_calibrate_write_test_issue(
- write_group *
- rwcfg->mem_virtual_groups_per_write_dqs + vg,
- use_dm);
+ group = write_group *
+ seq->rwcfg->mem_virtual_groups_per_write_dqs
+ + vg;
+ rw_mgr_mem_calibrate_write_test_issue(seq, group,
+ use_dm);
base_rw_mgr = readl(SDR_PHYGRP_RWMGRGRP_ADDRESS);
tmp_bit_chk <<= shift_ratio;
@@ -1207,14 +1218,14 @@
*bit_chk &= tmp_bit_chk;
}
- set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, 0, RW_MGR_ODT_MODE_OFF);
if (all_correct) {
debug_cond(DLEVEL >= 2,
"write_test(%u,%u,ALL) : %u == %u => %i\n",
write_group, use_dm, *bit_chk,
- param->write_correct_mask,
- *bit_chk == param->write_correct_mask);
- return *bit_chk == param->write_correct_mask;
+ seq->param.write_correct_mask,
+ *bit_chk == seq->param.write_correct_mask);
+ return *bit_chk == seq->param.write_correct_mask;
} else {
debug_cond(DLEVEL >= 2,
"write_test(%u,%u,ONE) : %u != %i => %i\n",
@@ -1233,47 +1244,49 @@
* read test to ensure memory works.
*/
static int
-rw_mgr_mem_calibrate_read_test_patterns(const u32 rank_bgn, const u32 group,
+rw_mgr_mem_calibrate_read_test_patterns(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn, const u32 group,
const u32 all_ranks)
{
const u32 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET;
const u32 addr_offset =
- (group * rwcfg->mem_virtual_groups_per_read_dqs) << 2;
+ (group * seq->rwcfg->mem_virtual_groups_per_read_dqs)
+ << 2;
const u32 rank_end = all_ranks ?
- rwcfg->mem_number_of_ranks :
+ seq->rwcfg->mem_number_of_ranks :
(rank_bgn + NUM_RANKS_PER_SHADOW_REG);
- const u32 shift_ratio = rwcfg->mem_dq_per_read_dqs /
- rwcfg->mem_virtual_groups_per_read_dqs;
- const u32 correct_mask_vg = param->read_correct_mask_vg;
+ const u32 shift_ratio = seq->rwcfg->mem_dq_per_read_dqs /
+ seq->rwcfg->mem_virtual_groups_per_read_dqs;
+ const u32 correct_mask_vg = seq->param.read_correct_mask_vg;
u32 tmp_bit_chk, base_rw_mgr, bit_chk;
int vg, r;
int ret = 0;
- bit_chk = param->read_correct_mask;
+ bit_chk = seq->param.read_correct_mask;
for (r = rank_bgn; r < rank_end; r++) {
/* Set rank */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_READ_WRITE);
/* Load up a constant bursts of read commands */
writel(0x20, &sdr_rw_load_mgr_regs->load_cntr0);
- writel(rwcfg->guaranteed_read,
+ writel(seq->rwcfg->guaranteed_read,
&sdr_rw_load_jump_mgr_regs->load_jump_add0);
writel(0x20, &sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->guaranteed_read_cont,
+ writel(seq->rwcfg->guaranteed_read_cont,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
tmp_bit_chk = 0;
- for (vg = rwcfg->mem_virtual_groups_per_read_dqs - 1;
+ for (vg = seq->rwcfg->mem_virtual_groups_per_read_dqs - 1;
vg >= 0; vg--) {
/* Reset the FIFOs to get pointers to known state. */
writel(0, &phy_mgr_cmd->fifo_reset);
writel(0, SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RESET_READ_DATAPATH_OFFSET);
- writel(rwcfg->guaranteed_read,
+ writel(seq->rwcfg->guaranteed_read,
addr + addr_offset + (vg << 2));
base_rw_mgr = readl(SDR_PHYGRP_RWMGRGRP_ADDRESS);
@@ -1284,33 +1297,35 @@
bit_chk &= tmp_bit_chk;
}
- writel(rwcfg->clear_dqs_enable, addr + (group << 2));
+ writel(seq->rwcfg->clear_dqs_enable, addr + (group << 2));
- set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, 0, RW_MGR_ODT_MODE_OFF);
- if (bit_chk != param->read_correct_mask)
+ if (bit_chk != seq->param.read_correct_mask)
ret = -EIO;
debug_cond(DLEVEL >= 1,
"%s:%d test_load_patterns(%u,ALL) => (%u == %u) => %i\n",
__func__, __LINE__, group, bit_chk,
- param->read_correct_mask, ret);
+ seq->param.read_correct_mask, ret);
return ret;
}
/**
- * rw_mgr_mem_calibrate_read_load_patterns() - Load up the patterns for read test
+ * rw_mgr_mem_calibrate_read_load_patterns() - Load up the patterns for read
+ * test
* @rank_bgn: Rank number
* @all_ranks: Test all ranks
*
* Load up the patterns we are going to use during a read test.
*/
-static void rw_mgr_mem_calibrate_read_load_patterns(const u32 rank_bgn,
+static void rw_mgr_mem_calibrate_read_load_patterns(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn,
const int all_ranks)
{
const u32 rank_end = all_ranks ?
- rwcfg->mem_number_of_ranks :
+ seq->rwcfg->mem_number_of_ranks :
(rank_bgn + NUM_RANKS_PER_SHADOW_REG);
u32 r;
@@ -1318,34 +1333,35 @@
for (r = rank_bgn; r < rank_end; r++) {
/* set rank */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_READ_WRITE);
/* Load up a constant bursts */
writel(0x20, &sdr_rw_load_mgr_regs->load_cntr0);
- writel(rwcfg->guaranteed_write_wait0,
+ writel(seq->rwcfg->guaranteed_write_wait0,
&sdr_rw_load_jump_mgr_regs->load_jump_add0);
writel(0x20, &sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->guaranteed_write_wait1,
+ writel(seq->rwcfg->guaranteed_write_wait1,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
writel(0x04, &sdr_rw_load_mgr_regs->load_cntr2);
- writel(rwcfg->guaranteed_write_wait2,
+ writel(seq->rwcfg->guaranteed_write_wait2,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
writel(0x04, &sdr_rw_load_mgr_regs->load_cntr3);
- writel(rwcfg->guaranteed_write_wait3,
+ writel(seq->rwcfg->guaranteed_write_wait3,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
- writel(rwcfg->guaranteed_write, SDR_PHYGRP_RWMGRGRP_ADDRESS |
- RW_MGR_RUN_SINGLE_GROUP_OFFSET);
+ writel(seq->rwcfg->guaranteed_write,
+ SDR_PHYGRP_RWMGRGRP_ADDRESS |
+ RW_MGR_RUN_SINGLE_GROUP_OFFSET);
}
- set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, 0, RW_MGR_ODT_MODE_OFF);
}
/**
@@ -1363,36 +1379,37 @@
* checks than the regular read test.
*/
static int
-rw_mgr_mem_calibrate_read_test(const u32 rank_bgn, const u32 group,
+rw_mgr_mem_calibrate_read_test(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn, const u32 group,
const u32 num_tries, const u32 all_correct,
u32 *bit_chk,
const u32 all_groups, const u32 all_ranks)
{
- const u32 rank_end = all_ranks ? rwcfg->mem_number_of_ranks :
+ const u32 rank_end = all_ranks ? seq->rwcfg->mem_number_of_ranks :
(rank_bgn + NUM_RANKS_PER_SHADOW_REG);
const u32 quick_read_mode =
((STATIC_CALIB_STEPS & CALIB_SKIP_DELAY_SWEEPS) &&
- misccfg->enable_super_quick_calibration);
- u32 correct_mask_vg = param->read_correct_mask_vg;
+ seq->misccfg->enable_super_quick_calibration);
+ u32 correct_mask_vg = seq->param.read_correct_mask_vg;
u32 tmp_bit_chk;
u32 base_rw_mgr;
u32 addr;
int r, vg, ret;
- *bit_chk = param->read_correct_mask;
+ *bit_chk = seq->param.read_correct_mask;
for (r = rank_bgn; r < rank_end; r++) {
/* set rank */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_READ_WRITE);
writel(0x10, &sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->read_b2b_wait1,
+ writel(seq->rwcfg->read_b2b_wait1,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
writel(0x10, &sdr_rw_load_mgr_regs->load_cntr2);
- writel(rwcfg->read_b2b_wait2,
+ writel(seq->rwcfg->read_b2b_wait2,
&sdr_rw_load_jump_mgr_regs->load_jump_add2);
if (quick_read_mode)
@@ -1403,21 +1420,21 @@
else
writel(0x32, &sdr_rw_load_mgr_regs->load_cntr0);
- writel(rwcfg->read_b2b,
+ writel(seq->rwcfg->read_b2b,
&sdr_rw_load_jump_mgr_regs->load_jump_add0);
if (all_groups)
- writel(rwcfg->mem_if_read_dqs_width *
- rwcfg->mem_virtual_groups_per_read_dqs - 1,
+ writel(seq->rwcfg->mem_if_read_dqs_width *
+ seq->rwcfg->mem_virtual_groups_per_read_dqs - 1,
&sdr_rw_load_mgr_regs->load_cntr3);
else
writel(0x0, &sdr_rw_load_mgr_regs->load_cntr3);
- writel(rwcfg->read_b2b,
+ writel(seq->rwcfg->read_b2b,
&sdr_rw_load_jump_mgr_regs->load_jump_add3);
tmp_bit_chk = 0;
- for (vg = rwcfg->mem_virtual_groups_per_read_dqs - 1; vg >= 0;
- vg--) {
+ for (vg = seq->rwcfg->mem_virtual_groups_per_read_dqs - 1;
+ vg >= 0; vg--) {
/* Reset the FIFOs to get pointers to known state. */
writel(0, &phy_mgr_cmd->fifo_reset);
writel(0, SDR_PHYGRP_RWMGRGRP_ADDRESS |
@@ -1431,14 +1448,15 @@
RW_MGR_RUN_SINGLE_GROUP_OFFSET;
}
- writel(rwcfg->read_b2b, addr +
+ writel(seq->rwcfg->read_b2b, addr +
((group *
- rwcfg->mem_virtual_groups_per_read_dqs +
+ seq->rwcfg->mem_virtual_groups_per_read_dqs +
vg) << 2));
base_rw_mgr = readl(SDR_PHYGRP_RWMGRGRP_ADDRESS);
- tmp_bit_chk <<= rwcfg->mem_dq_per_read_dqs /
- rwcfg->mem_virtual_groups_per_read_dqs;
+ tmp_bit_chk <<=
+ seq->rwcfg->mem_dq_per_read_dqs /
+ seq->rwcfg->mem_virtual_groups_per_read_dqs;
tmp_bit_chk |= correct_mask_vg & ~(base_rw_mgr);
}
@@ -1446,16 +1464,16 @@
}
addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
- writel(rwcfg->clear_dqs_enable, addr + (group << 2));
+ writel(seq->rwcfg->clear_dqs_enable, addr + (group << 2));
- set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, 0, RW_MGR_ODT_MODE_OFF);
if (all_correct) {
- ret = (*bit_chk == param->read_correct_mask);
+ ret = (*bit_chk == seq->param.read_correct_mask);
debug_cond(DLEVEL >= 2,
"%s:%d read_test(%u,ALL,%u) => (%u == %u) => %i\n",
__func__, __LINE__, group, all_groups, *bit_chk,
- param->read_correct_mask, ret);
+ seq->param.read_correct_mask, ret);
} else {
ret = (*bit_chk != 0x00);
debug_cond(DLEVEL >= 2,
@@ -1477,13 +1495,15 @@
* Perform a READ test across all memory ranks.
*/
static int
-rw_mgr_mem_calibrate_read_test_all_ranks(const u32 grp, const u32 num_tries,
+rw_mgr_mem_calibrate_read_test_all_ranks(struct socfpga_sdrseq *seq,
+ const u32 grp, const u32 num_tries,
const u32 all_correct,
const u32 all_groups)
{
u32 bit_chk;
- return rw_mgr_mem_calibrate_read_test(0, grp, num_tries, all_correct,
- &bit_chk, all_groups, 1);
+ return rw_mgr_mem_calibrate_read_test(seq, 0, grp, num_tries,
+ all_correct, &bit_chk, all_groups,
+ 1);
}
/**
@@ -1503,11 +1523,11 @@
*
* Decrease VFIFO value.
*/
-static void rw_mgr_decr_vfifo(const u32 grp)
+static void rw_mgr_decr_vfifo(struct socfpga_sdrseq *seq, const u32 grp)
{
u32 i;
- for (i = 0; i < misccfg->read_valid_fifo_size - 1; i++)
+ for (i = 0; i < seq->misccfg->read_valid_fifo_size - 1; i++)
rw_mgr_incr_vfifo(grp);
}
@@ -1517,15 +1537,16 @@
*
* Push VFIFO until a failing read happens.
*/
-static int find_vfifo_failing_read(const u32 grp)
+static int find_vfifo_failing_read(struct socfpga_sdrseq *seq,
+ const u32 grp)
{
u32 v, ret, fail_cnt = 0;
- for (v = 0; v < misccfg->read_valid_fifo_size; v++) {
+ for (v = 0; v < seq->misccfg->read_valid_fifo_size; v++) {
debug_cond(DLEVEL >= 2, "%s:%d: vfifo %u\n",
__func__, __LINE__, v);
- ret = rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
- PASS_ONE_BIT, 0);
+ ret = rw_mgr_mem_calibrate_read_test_all_ranks(seq, grp, 1,
+ PASS_ONE_BIT, 0);
if (!ret) {
fail_cnt++;
@@ -1553,21 +1574,22 @@
*
* Find working or non-working DQS enable phase setting.
*/
-static int sdr_find_phase_delay(int working, int delay, const u32 grp,
- u32 *work, const u32 work_inc, u32 *pd)
+static int sdr_find_phase_delay(struct socfpga_sdrseq *seq, int working,
+ int delay, const u32 grp, u32 *work,
+ const u32 work_inc, u32 *pd)
{
- const u32 max = delay ? iocfg->dqs_en_delay_max :
- iocfg->dqs_en_phase_max;
+ const u32 max = delay ? seq->iocfg->dqs_en_delay_max :
+ seq->iocfg->dqs_en_phase_max;
u32 ret;
for (; *pd <= max; (*pd)++) {
if (delay)
- scc_mgr_set_dqs_en_delay_all_ranks(grp, *pd);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, *pd);
else
- scc_mgr_set_dqs_en_phase_all_ranks(grp, *pd);
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, *pd);
- ret = rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
- PASS_ONE_BIT, 0);
+ ret = rw_mgr_mem_calibrate_read_test_all_ranks(seq, grp, 1,
+ PASS_ONE_BIT, 0);
if (!working)
ret = !ret;
@@ -1590,22 +1612,22 @@
*
* Find working or non-working DQS enable phase setting.
*/
-static int sdr_find_phase(int working, const u32 grp, u32 *work,
- u32 *i, u32 *p)
+static int sdr_find_phase(struct socfpga_sdrseq *seq, int working,
+ const u32 grp, u32 *work, u32 *i, u32 *p)
{
- const u32 end = misccfg->read_valid_fifo_size + (working ? 0 : 1);
+ const u32 end = seq->misccfg->read_valid_fifo_size + (working ? 0 : 1);
int ret;
for (; *i < end; (*i)++) {
if (working)
*p = 0;
- ret = sdr_find_phase_delay(working, 0, grp, work,
- iocfg->delay_per_opa_tap, p);
+ ret = sdr_find_phase_delay(seq, working, 0, grp, work,
+ seq->iocfg->delay_per_opa_tap, p);
if (!ret)
return 0;
- if (*p > iocfg->dqs_en_phase_max) {
+ if (*p > seq->iocfg->dqs_en_phase_max) {
/* Fiddle with FIFO. */
rw_mgr_incr_vfifo(grp);
if (!working)
@@ -1626,22 +1648,22 @@
*
* Find working DQS enable phase setting.
*/
-static int sdr_working_phase(const u32 grp, u32 *work_bgn, u32 *d,
- u32 *p, u32 *i)
+static int sdr_working_phase(struct socfpga_sdrseq *seq, const u32 grp,
+ u32 *work_bgn, u32 *d, u32 *p, u32 *i)
{
- const u32 dtaps_per_ptap = iocfg->delay_per_opa_tap /
- iocfg->delay_per_dqs_en_dchain_tap;
+ const u32 dtaps_per_ptap = seq->iocfg->delay_per_opa_tap /
+ seq->iocfg->delay_per_dqs_en_dchain_tap;
int ret;
*work_bgn = 0;
for (*d = 0; *d <= dtaps_per_ptap; (*d)++) {
*i = 0;
- scc_mgr_set_dqs_en_delay_all_ranks(grp, *d);
- ret = sdr_find_phase(1, grp, work_bgn, i, p);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, *d);
+ ret = sdr_find_phase(seq, 1, grp, work_bgn, i, p);
if (!ret)
return 0;
- *work_bgn += iocfg->delay_per_dqs_en_dchain_tap;
+ *work_bgn += seq->iocfg->delay_per_dqs_en_dchain_tap;
}
/* Cannot find working solution */
@@ -1658,43 +1680,44 @@
*
* Find DQS enable backup phase setting.
*/
-static void sdr_backup_phase(const u32 grp, u32 *work_bgn, u32 *p)
+static void sdr_backup_phase(struct socfpga_sdrseq *seq, const u32 grp,
+ u32 *work_bgn, u32 *p)
{
u32 tmp_delay, d;
int ret;
/* Special case code for backing up a phase */
if (*p == 0) {
- *p = iocfg->dqs_en_phase_max;
- rw_mgr_decr_vfifo(grp);
+ *p = seq->iocfg->dqs_en_phase_max;
+ rw_mgr_decr_vfifo(seq, grp);
} else {
(*p)--;
}
- tmp_delay = *work_bgn - iocfg->delay_per_opa_tap;
- scc_mgr_set_dqs_en_phase_all_ranks(grp, *p);
+ tmp_delay = *work_bgn - seq->iocfg->delay_per_opa_tap;
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, *p);
- for (d = 0; d <= iocfg->dqs_en_delay_max && tmp_delay < *work_bgn;
+ for (d = 0; d <= seq->iocfg->dqs_en_delay_max && tmp_delay < *work_bgn;
d++) {
- scc_mgr_set_dqs_en_delay_all_ranks(grp, d);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, d);
- ret = rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
- PASS_ONE_BIT, 0);
+ ret = rw_mgr_mem_calibrate_read_test_all_ranks(seq, grp, 1,
+ PASS_ONE_BIT, 0);
if (ret) {
*work_bgn = tmp_delay;
break;
}
- tmp_delay += iocfg->delay_per_dqs_en_dchain_tap;
+ tmp_delay += seq->iocfg->delay_per_dqs_en_dchain_tap;
}
/* Restore VFIFO to old state before we decremented it (if needed). */
(*p)++;
- if (*p > iocfg->dqs_en_phase_max) {
+ if (*p > seq->iocfg->dqs_en_phase_max) {
*p = 0;
rw_mgr_incr_vfifo(grp);
}
- scc_mgr_set_dqs_en_delay_all_ranks(grp, 0);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, 0);
}
/**
@@ -1706,19 +1729,20 @@
*
* Find non-working DQS enable phase setting.
*/
-static int sdr_nonworking_phase(const u32 grp, u32 *work_end, u32 *p, u32 *i)
+static int sdr_nonworking_phase(struct socfpga_sdrseq *seq,
+ const u32 grp, u32 *work_end, u32 *p, u32 *i)
{
int ret;
(*p)++;
- *work_end += iocfg->delay_per_opa_tap;
- if (*p > iocfg->dqs_en_phase_max) {
+ *work_end += seq->iocfg->delay_per_opa_tap;
+ if (*p > seq->iocfg->dqs_en_phase_max) {
/* Fiddle with FIFO. */
*p = 0;
rw_mgr_incr_vfifo(grp);
}
- ret = sdr_find_phase(0, grp, work_end, i, p);
+ ret = sdr_find_phase(seq, 0, grp, work_end, i, p);
if (ret) {
/* Cannot see edge of failing read. */
debug_cond(DLEVEL >= 2, "%s:%d: end: failed\n",
@@ -1736,7 +1760,8 @@
*
* Find center of the working DQS enable window.
*/
-static int sdr_find_window_center(const u32 grp, const u32 work_bgn,
+static int sdr_find_window_center(struct socfpga_sdrseq *seq,
+ const u32 grp, const u32 work_bgn,
const u32 work_end)
{
u32 work_mid;
@@ -1748,37 +1773,41 @@
debug_cond(DLEVEL >= 2, "work_bgn=%d work_end=%d work_mid=%d\n",
work_bgn, work_end, work_mid);
/* Get the middle delay to be less than a VFIFO delay */
- tmp_delay = (iocfg->dqs_en_phase_max + 1) * iocfg->delay_per_opa_tap;
+ tmp_delay = (seq->iocfg->dqs_en_phase_max + 1)
+ * seq->iocfg->delay_per_opa_tap;
debug_cond(DLEVEL >= 2, "vfifo ptap delay %d\n", tmp_delay);
work_mid %= tmp_delay;
debug_cond(DLEVEL >= 2, "new work_mid %d\n", work_mid);
- tmp_delay = rounddown(work_mid, iocfg->delay_per_opa_tap);
- if (tmp_delay > iocfg->dqs_en_phase_max * iocfg->delay_per_opa_tap)
- tmp_delay = iocfg->dqs_en_phase_max * iocfg->delay_per_opa_tap;
- p = tmp_delay / iocfg->delay_per_opa_tap;
+ tmp_delay = rounddown(work_mid, seq->iocfg->delay_per_opa_tap);
+ if (tmp_delay > seq->iocfg->dqs_en_phase_max
+ * seq->iocfg->delay_per_opa_tap) {
+ tmp_delay = seq->iocfg->dqs_en_phase_max
+ * seq->iocfg->delay_per_opa_tap;
+ }
+ p = tmp_delay / seq->iocfg->delay_per_opa_tap;
debug_cond(DLEVEL >= 2, "new p %d, tmp_delay=%d\n", p, tmp_delay);
d = DIV_ROUND_UP(work_mid - tmp_delay,
- iocfg->delay_per_dqs_en_dchain_tap);
- if (d > iocfg->dqs_en_delay_max)
- d = iocfg->dqs_en_delay_max;
- tmp_delay += d * iocfg->delay_per_dqs_en_dchain_tap;
+ seq->iocfg->delay_per_dqs_en_dchain_tap);
+ if (d > seq->iocfg->dqs_en_delay_max)
+ d = seq->iocfg->dqs_en_delay_max;
+ tmp_delay += d * seq->iocfg->delay_per_dqs_en_dchain_tap;
debug_cond(DLEVEL >= 2, "new d %d, tmp_delay=%d\n", d, tmp_delay);
- scc_mgr_set_dqs_en_phase_all_ranks(grp, p);
- scc_mgr_set_dqs_en_delay_all_ranks(grp, d);
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, p);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, d);
/*
* push vfifo until we can successfully calibrate. We can do this
* because the largest possible margin in 1 VFIFO cycle.
*/
- for (i = 0; i < misccfg->read_valid_fifo_size; i++) {
+ for (i = 0; i < seq->misccfg->read_valid_fifo_size; i++) {
debug_cond(DLEVEL >= 2, "find_dqs_en_phase: center\n");
- if (rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
+ if (rw_mgr_mem_calibrate_read_test_all_ranks(seq, grp, 1,
PASS_ONE_BIT,
0)) {
debug_cond(DLEVEL >= 2,
@@ -1797,12 +1826,15 @@
}
/**
- * rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase() - Find a good DQS enable to use
+ * rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase() - Find a good DQS enable to
+ * use
* @grp: Read/Write Group
*
* Find a good DQS enable to use.
*/
-static int rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(const u32 grp)
+static int
+rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(struct socfpga_sdrseq *seq,
+ const u32 grp)
{
u32 d, p, i;
u32 dtaps_per_ptap;
@@ -1814,19 +1846,19 @@
reg_file_set_sub_stage(CAL_SUBSTAGE_VFIFO_CENTER);
- scc_mgr_set_dqs_en_delay_all_ranks(grp, 0);
- scc_mgr_set_dqs_en_phase_all_ranks(grp, 0);
+ scc_mgr_set_dqs_en_delay_all_ranks(seq, grp, 0);
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, 0);
/* Step 0: Determine number of delay taps for each phase tap. */
- dtaps_per_ptap = iocfg->delay_per_opa_tap /
- iocfg->delay_per_dqs_en_dchain_tap;
+ dtaps_per_ptap = seq->iocfg->delay_per_opa_tap /
+ seq->iocfg->delay_per_dqs_en_dchain_tap;
/* Step 1: First push vfifo until we get a failing read. */
- find_vfifo_failing_read(grp);
+ find_vfifo_failing_read(seq, grp);
/* Step 2: Find first working phase, increment in ptaps. */
work_bgn = 0;
- ret = sdr_working_phase(grp, &work_bgn, &d, &p, &i);
+ ret = sdr_working_phase(seq, grp, &work_bgn, &d, &p, &i);
if (ret)
return ret;
@@ -1842,13 +1874,13 @@
* Step 3a: If we have room, back off by one and
* increment in dtaps.
*/
- sdr_backup_phase(grp, &work_bgn, &p);
+ sdr_backup_phase(seq, grp, &work_bgn, &p);
/*
* Step 4a: go forward from working phase to non working
* phase, increment in ptaps.
*/
- ret = sdr_nonworking_phase(grp, &work_end, &p, &i);
+ ret = sdr_nonworking_phase(seq, grp, &work_end, &p, &i);
if (ret)
return ret;
@@ -1856,14 +1888,14 @@
/* Special case code for backing up a phase */
if (p == 0) {
- p = iocfg->dqs_en_phase_max;
- rw_mgr_decr_vfifo(grp);
+ p = seq->iocfg->dqs_en_phase_max;
+ rw_mgr_decr_vfifo(seq, grp);
} else {
p = p - 1;
}
- work_end -= iocfg->delay_per_opa_tap;
- scc_mgr_set_dqs_en_phase_all_ranks(grp, p);
+ work_end -= seq->iocfg->delay_per_opa_tap;
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, p);
d = 0;
@@ -1872,12 +1904,12 @@
}
/* The dtap increment to find the failing edge is done here. */
- sdr_find_phase_delay(0, 1, grp, &work_end,
- iocfg->delay_per_dqs_en_dchain_tap, &d);
+ sdr_find_phase_delay(seq, 0, 1, grp, &work_end,
+ seq->iocfg->delay_per_dqs_en_dchain_tap, &d);
/* Go back to working dtap */
if (d != 0)
- work_end -= iocfg->delay_per_dqs_en_dchain_tap;
+ work_end -= seq->iocfg->delay_per_dqs_en_dchain_tap;
debug_cond(DLEVEL >= 2,
"%s:%d p/d: ptap=%u dtap=%u end=%u\n",
@@ -1903,8 +1935,8 @@
/* Special case code for backing up a phase */
if (p == 0) {
- p = iocfg->dqs_en_phase_max;
- rw_mgr_decr_vfifo(grp);
+ p = seq->iocfg->dqs_en_phase_max;
+ rw_mgr_decr_vfifo(seq, grp);
debug_cond(DLEVEL >= 2, "%s:%d backedup cycle/phase: p=%u\n",
__func__, __LINE__, p);
} else {
@@ -1913,7 +1945,7 @@
__func__, __LINE__, p);
}
- scc_mgr_set_dqs_en_phase_all_ranks(grp, p);
+ scc_mgr_set_dqs_en_phase_all_ranks(seq, grp, p);
/*
* Increase dtap until we first see a passing read (in case the
@@ -1927,14 +1959,14 @@
initial_failing_dtap = d;
- found_passing_read = !sdr_find_phase_delay(1, 1, grp, NULL, 0, &d);
+ found_passing_read = !sdr_find_phase_delay(seq, 1, 1, grp, NULL, 0, &d);
if (found_passing_read) {
/* Find a failing read. */
debug_cond(DLEVEL >= 2, "%s:%d find failing read\n",
__func__, __LINE__);
d++;
- found_failing_read = !sdr_find_phase_delay(0, 1, grp, NULL, 0,
- &d);
+ found_failing_read = !sdr_find_phase_delay(seq, 0, 1, grp, NULL,
+ 0, &d);
} else {
debug_cond(DLEVEL >= 1,
"%s:%d failed to calculate dtaps per ptap. Fall back on static value\n",
@@ -1944,7 +1976,7 @@
/*
* The dynamically calculated dtaps_per_ptap is only valid if we
* found a passing/failing read. If we didn't, it means d hit the max
- * (iocfg->dqs_en_delay_max). Otherwise, dtaps_per_ptap retains its
+ * (seq->iocfg->dqs_en_delay_max). Otherwise, dtaps_per_ptap retains its
* statically calculated value.
*/
if (found_passing_read && found_failing_read)
@@ -1955,7 +1987,7 @@
__func__, __LINE__, d, initial_failing_dtap, dtaps_per_ptap);
/* Step 6: Find the centre of the window. */
- ret = sdr_find_window_center(grp, work_bgn, work_end);
+ ret = sdr_find_window_center(seq, grp, work_bgn, work_end);
return ret;
}
@@ -1973,33 +2005,35 @@
*
* Test if the found edge is valid.
*/
-static u32 search_stop_check(const int write, const int d, const int rank_bgn,
+static u32 search_stop_check(struct socfpga_sdrseq *seq, const int write,
+ const int d, const int rank_bgn,
const u32 write_group, const u32 read_group,
u32 *bit_chk, u32 *sticky_bit_chk,
const u32 use_read_test)
{
- const u32 ratio = rwcfg->mem_if_read_dqs_width /
- rwcfg->mem_if_write_dqs_width;
- const u32 correct_mask = write ? param->write_correct_mask :
- param->read_correct_mask;
- const u32 per_dqs = write ? rwcfg->mem_dq_per_write_dqs :
- rwcfg->mem_dq_per_read_dqs;
+ const u32 ratio = seq->rwcfg->mem_if_read_dqs_width /
+ seq->rwcfg->mem_if_write_dqs_width;
+ const u32 correct_mask = write ? seq->param.write_correct_mask :
+ seq->param.read_correct_mask;
+ const u32 per_dqs = write ? seq->rwcfg->mem_dq_per_write_dqs :
+ seq->rwcfg->mem_dq_per_read_dqs;
u32 ret;
/*
* Stop searching when the read test doesn't pass AND when
* we've seen a passing read on every bit.
*/
if (write) { /* WRITE-ONLY */
- ret = !rw_mgr_mem_calibrate_write_test(rank_bgn, write_group,
- 0, PASS_ONE_BIT,
- bit_chk, 0);
+ ret = !rw_mgr_mem_calibrate_write_test(seq, rank_bgn,
+ write_group, 0,
+ PASS_ONE_BIT, bit_chk,
+ 0);
} else if (use_read_test) { /* READ-ONLY */
- ret = !rw_mgr_mem_calibrate_read_test(rank_bgn, read_group,
+ ret = !rw_mgr_mem_calibrate_read_test(seq, rank_bgn, read_group,
NUM_READ_PB_TESTS,
PASS_ONE_BIT, bit_chk,
0, 0);
} else { /* READ-ONLY */
- rw_mgr_mem_calibrate_write_test(rank_bgn, write_group, 0,
+ rw_mgr_mem_calibrate_write_test(seq, rank_bgn, write_group, 0,
PASS_ONE_BIT, bit_chk, 0);
*bit_chk = *bit_chk >> (per_dqs *
(read_group - (write_group * ratio)));
@@ -2028,29 +2062,30 @@
*
* Find left edge of DQ/DQS working phase.
*/
-static void search_left_edge(const int write, const int rank_bgn,
- const u32 write_group, const u32 read_group, const u32 test_bgn,
- u32 *sticky_bit_chk,
- int *left_edge, int *right_edge, const u32 use_read_test)
+static void search_left_edge(struct socfpga_sdrseq *seq, const int write,
+ const int rank_bgn, const u32 write_group,
+ const u32 read_group, const u32 test_bgn,
+ u32 *sticky_bit_chk, int *left_edge,
+ int *right_edge, const u32 use_read_test)
{
- const u32 delay_max = write ? iocfg->io_out1_delay_max :
- iocfg->io_in_delay_max;
- const u32 dqs_max = write ? iocfg->io_out1_delay_max :
- iocfg->dqs_in_delay_max;
- const u32 per_dqs = write ? rwcfg->mem_dq_per_write_dqs :
- rwcfg->mem_dq_per_read_dqs;
+ const u32 delay_max = write ? seq->iocfg->io_out1_delay_max :
+ seq->iocfg->io_in_delay_max;
+ const u32 dqs_max = write ? seq->iocfg->io_out1_delay_max :
+ seq->iocfg->dqs_in_delay_max;
+ const u32 per_dqs = write ? seq->rwcfg->mem_dq_per_write_dqs :
+ seq->rwcfg->mem_dq_per_read_dqs;
u32 stop, bit_chk;
int i, d;
for (d = 0; d <= dqs_max; d++) {
if (write)
- scc_mgr_apply_group_dq_out1_delay(d);
+ scc_mgr_apply_group_dq_out1_delay(seq, d);
else
- scc_mgr_apply_group_dq_in_delay(test_bgn, d);
+ scc_mgr_apply_group_dq_in_delay(seq, test_bgn, d);
writel(0, &sdr_scc_mgr->update);
- stop = search_stop_check(write, d, rank_bgn, write_group,
+ stop = search_stop_check(seq, write, d, rank_bgn, write_group,
read_group, &bit_chk, sticky_bit_chk,
use_read_test);
if (stop == 1)
@@ -2080,9 +2115,9 @@
/* Reset DQ delay chains to 0 */
if (write)
- scc_mgr_apply_group_dq_out1_delay(0);
+ scc_mgr_apply_group_dq_out1_delay(seq, 0);
else
- scc_mgr_apply_group_dq_in_delay(test_bgn, 0);
+ scc_mgr_apply_group_dq_in_delay(seq, test_bgn, 0);
*sticky_bit_chk = 0;
for (i = per_dqs - 1; i >= 0; i--) {
@@ -2138,31 +2173,33 @@
*
* Find right edge of DQ/DQS working phase.
*/
-static int search_right_edge(const int write, const int rank_bgn,
- const u32 write_group, const u32 read_group,
- const int start_dqs, const int start_dqs_en,
- u32 *sticky_bit_chk,
- int *left_edge, int *right_edge, const u32 use_read_test)
+static int search_right_edge(struct socfpga_sdrseq *seq, const int write,
+ const int rank_bgn, const u32 write_group,
+ const u32 read_group, const int start_dqs,
+ const int start_dqs_en, u32 *sticky_bit_chk,
+ int *left_edge, int *right_edge,
+ const u32 use_read_test)
{
- const u32 delay_max = write ? iocfg->io_out1_delay_max :
- iocfg->io_in_delay_max;
- const u32 dqs_max = write ? iocfg->io_out1_delay_max :
- iocfg->dqs_in_delay_max;
- const u32 per_dqs = write ? rwcfg->mem_dq_per_write_dqs :
- rwcfg->mem_dq_per_read_dqs;
+ const u32 delay_max = write ? seq->iocfg->io_out1_delay_max :
+ seq->iocfg->io_in_delay_max;
+ const u32 dqs_max = write ? seq->iocfg->io_out1_delay_max :
+ seq->iocfg->dqs_in_delay_max;
+ const u32 per_dqs = write ? seq->rwcfg->mem_dq_per_write_dqs :
+ seq->rwcfg->mem_dq_per_read_dqs;
u32 stop, bit_chk;
int i, d;
for (d = 0; d <= dqs_max - start_dqs; d++) {
if (write) { /* WRITE-ONLY */
- scc_mgr_apply_group_dqs_io_and_oct_out1(write_group,
+ scc_mgr_apply_group_dqs_io_and_oct_out1(seq,
+ write_group,
d + start_dqs);
} else { /* READ-ONLY */
scc_mgr_set_dqs_bus_in_delay(read_group, d + start_dqs);
- if (iocfg->shift_dqs_en_when_shift_dqs) {
+ if (seq->iocfg->shift_dqs_en_when_shift_dqs) {
u32 delay = d + start_dqs_en;
- if (delay > iocfg->dqs_en_delay_max)
- delay = iocfg->dqs_en_delay_max;
+ if (delay > seq->iocfg->dqs_en_delay_max)
+ delay = seq->iocfg->dqs_en_delay_max;
scc_mgr_set_dqs_en_delay(read_group, delay);
}
scc_mgr_load_dqs(read_group);
@@ -2170,12 +2207,13 @@
writel(0, &sdr_scc_mgr->update);
- stop = search_stop_check(write, d, rank_bgn, write_group,
+ stop = search_stop_check(seq, write, d, rank_bgn, write_group,
read_group, &bit_chk, sticky_bit_chk,
use_read_test);
if (stop == 1) {
if (write && (d == 0)) { /* WRITE-ONLY */
- for (i = 0; i < rwcfg->mem_dq_per_write_dqs;
+ for (i = 0;
+ i < seq->rwcfg->mem_dq_per_write_dqs;
i++) {
/*
* d = 0 failed, but it passed when
@@ -2263,11 +2301,12 @@
*
* Find index and value of the middle of the DQ/DQS working phase.
*/
-static int get_window_mid_index(const int write, int *left_edge,
+static int get_window_mid_index(struct socfpga_sdrseq *seq,
+ const int write, int *left_edge,
int *right_edge, int *mid_min)
{
- const u32 per_dqs = write ? rwcfg->mem_dq_per_write_dqs :
- rwcfg->mem_dq_per_read_dqs;
+ const u32 per_dqs = write ? seq->rwcfg->mem_dq_per_write_dqs :
+ seq->rwcfg->mem_dq_per_read_dqs;
int i, mid, min_index;
/* Find middle of window for each DQ bit */
@@ -2310,15 +2349,16 @@
*
* Align the DQ/DQS windows in each group.
*/
-static void center_dq_windows(const int write, int *left_edge, int *right_edge,
+static void center_dq_windows(struct socfpga_sdrseq *seq,
+ const int write, int *left_edge, int *right_edge,
const int mid_min, const int orig_mid_min,
const int min_index, const int test_bgn,
int *dq_margin, int *dqs_margin)
{
- const s32 delay_max = write ? iocfg->io_out1_delay_max :
- iocfg->io_in_delay_max;
- const s32 per_dqs = write ? rwcfg->mem_dq_per_write_dqs :
- rwcfg->mem_dq_per_read_dqs;
+ const s32 delay_max = write ? seq->iocfg->io_out1_delay_max :
+ seq->iocfg->io_in_delay_max;
+ const s32 per_dqs = write ? seq->rwcfg->mem_dq_per_write_dqs :
+ seq->rwcfg->mem_dq_per_read_dqs;
const s32 delay_off = write ? SCC_MGR_IO_OUT1_DELAY_OFFSET :
SCC_MGR_IO_IN_DELAY_OFFSET;
const s32 addr = SDR_PHYGRP_SCCGRP_ADDRESS | delay_off;
@@ -2385,9 +2425,12 @@
*
* Per-bit deskew DQ and centering.
*/
-static int rw_mgr_mem_calibrate_vfifo_center(const u32 rank_bgn,
- const u32 rw_group, const u32 test_bgn,
- const int use_read_test, const int update_fom)
+static int rw_mgr_mem_calibrate_vfifo_center(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn,
+ const u32 rw_group,
+ const u32 test_bgn,
+ const int use_read_test,
+ const int update_fom)
{
const u32 addr =
SDR_PHYGRP_SCCGRP_ADDRESS + SCC_MGR_DQS_IN_DELAY_OFFSET +
@@ -2397,36 +2440,36 @@
* signed numbers.
*/
u32 sticky_bit_chk;
- int32_t left_edge[rwcfg->mem_dq_per_read_dqs];
- int32_t right_edge[rwcfg->mem_dq_per_read_dqs];
- int32_t orig_mid_min, mid_min;
- int32_t new_dqs, start_dqs, start_dqs_en = 0, final_dqs_en;
- int32_t dq_margin, dqs_margin;
+ s32 left_edge[seq->rwcfg->mem_dq_per_read_dqs];
+ s32 right_edge[seq->rwcfg->mem_dq_per_read_dqs];
+ s32 orig_mid_min, mid_min;
+ s32 new_dqs, start_dqs, start_dqs_en = 0, final_dqs_en;
+ s32 dq_margin, dqs_margin;
int i, min_index;
int ret;
debug("%s:%d: %u %u", __func__, __LINE__, rw_group, test_bgn);
start_dqs = readl(addr);
- if (iocfg->shift_dqs_en_when_shift_dqs)
- start_dqs_en = readl(addr - iocfg->dqs_en_delay_offset);
+ if (seq->iocfg->shift_dqs_en_when_shift_dqs)
+ start_dqs_en = readl(addr - seq->iocfg->dqs_en_delay_offset);
/* set the left and right edge of each bit to an illegal value */
- /* use (iocfg->io_in_delay_max + 1) as an illegal value */
+ /* use (seq->iocfg->io_in_delay_max + 1) as an illegal value */
sticky_bit_chk = 0;
- for (i = 0; i < rwcfg->mem_dq_per_read_dqs; i++) {
- left_edge[i] = iocfg->io_in_delay_max + 1;
- right_edge[i] = iocfg->io_in_delay_max + 1;
+ for (i = 0; i < seq->rwcfg->mem_dq_per_read_dqs; i++) {
+ left_edge[i] = seq->iocfg->io_in_delay_max + 1;
+ right_edge[i] = seq->iocfg->io_in_delay_max + 1;
}
/* Search for the left edge of the window for each bit */
- search_left_edge(0, rank_bgn, rw_group, rw_group, test_bgn,
+ search_left_edge(seq, 0, rank_bgn, rw_group, rw_group, test_bgn,
&sticky_bit_chk,
left_edge, right_edge, use_read_test);
/* Search for the right edge of the window for each bit */
- ret = search_right_edge(0, rank_bgn, rw_group, rw_group,
+ ret = search_right_edge(seq, 0, rank_bgn, rw_group, rw_group,
start_dqs, start_dqs_en,
&sticky_bit_chk,
left_edge, right_edge, use_read_test);
@@ -2437,7 +2480,7 @@
* dqs/ck relationships.
*/
scc_mgr_set_dqs_bus_in_delay(rw_group, start_dqs);
- if (iocfg->shift_dqs_en_when_shift_dqs)
+ if (seq->iocfg->shift_dqs_en_when_shift_dqs)
scc_mgr_set_dqs_en_delay(rw_group, start_dqs_en);
scc_mgr_load_dqs(rw_group);
@@ -2447,26 +2490,27 @@
"%s:%d vfifo_center: failed to find edge [%u]: %d %d",
__func__, __LINE__, i, left_edge[i], right_edge[i]);
if (use_read_test) {
- set_failing_group_stage(rw_group *
- rwcfg->mem_dq_per_read_dqs + i,
+ set_failing_group_stage(seq, rw_group *
+ seq->rwcfg->mem_dq_per_read_dqs + i,
CAL_STAGE_VFIFO,
CAL_SUBSTAGE_VFIFO_CENTER);
} else {
- set_failing_group_stage(rw_group *
- rwcfg->mem_dq_per_read_dqs + i,
+ set_failing_group_stage(seq, rw_group *
+ seq->rwcfg->mem_dq_per_read_dqs + i,
CAL_STAGE_VFIFO_AFTER_WRITES,
CAL_SUBSTAGE_VFIFO_CENTER);
}
return -EIO;
}
- min_index = get_window_mid_index(0, left_edge, right_edge, &mid_min);
+ min_index = get_window_mid_index(seq, 0, left_edge, right_edge,
+ &mid_min);
/* Determine the amount we can change DQS (which is -mid_min) */
orig_mid_min = mid_min;
new_dqs = start_dqs - mid_min;
- if (new_dqs > iocfg->dqs_in_delay_max)
- new_dqs = iocfg->dqs_in_delay_max;
+ if (new_dqs > seq->iocfg->dqs_in_delay_max)
+ new_dqs = seq->iocfg->dqs_in_delay_max;
else if (new_dqs < 0)
new_dqs = 0;
@@ -2474,10 +2518,10 @@
debug_cond(DLEVEL >= 1, "vfifo_center: new mid_min=%d new_dqs=%d\n",
mid_min, new_dqs);
- if (iocfg->shift_dqs_en_when_shift_dqs) {
- if (start_dqs_en - mid_min > iocfg->dqs_en_delay_max)
+ if (seq->iocfg->shift_dqs_en_when_shift_dqs) {
+ if (start_dqs_en - mid_min > seq->iocfg->dqs_en_delay_max)
mid_min += start_dqs_en - mid_min -
- iocfg->dqs_en_delay_max;
+ seq->iocfg->dqs_en_delay_max;
else if (start_dqs_en - mid_min < 0)
mid_min += start_dqs_en - mid_min;
}
@@ -2486,15 +2530,15 @@
debug_cond(DLEVEL >= 1,
"vfifo_center: start_dqs=%d start_dqs_en=%d new_dqs=%d mid_min=%d\n",
start_dqs,
- iocfg->shift_dqs_en_when_shift_dqs ? start_dqs_en : -1,
+ seq->iocfg->shift_dqs_en_when_shift_dqs ? start_dqs_en : -1,
new_dqs, mid_min);
/* Add delay to bring centre of all DQ windows to the same "level". */
- center_dq_windows(0, left_edge, right_edge, mid_min, orig_mid_min,
+ center_dq_windows(seq, 0, left_edge, right_edge, mid_min, orig_mid_min,
min_index, test_bgn, &dq_margin, &dqs_margin);
/* Move DQS-en */
- if (iocfg->shift_dqs_en_when_shift_dqs) {
+ if (seq->iocfg->shift_dqs_en_when_shift_dqs) {
final_dqs_en = start_dqs_en - mid_min;
scc_mgr_set_dqs_en_delay(rw_group, final_dqs_en);
scc_mgr_load_dqs(rw_group);
@@ -2520,7 +2564,8 @@
}
/**
- * rw_mgr_mem_calibrate_guaranteed_write() - Perform guaranteed write into the device
+ * rw_mgr_mem_calibrate_guaranteed_write() - Perform guaranteed write into the
+ * device
* @rw_group: Read/Write Group
* @phase: DQ/DQS phase
*
@@ -2528,13 +2573,14 @@
* device, the sequencer uses a guaranteed write mechanism to write data into
* the memory device.
*/
-static int rw_mgr_mem_calibrate_guaranteed_write(const u32 rw_group,
+static int rw_mgr_mem_calibrate_guaranteed_write(struct socfpga_sdrseq *seq,
+ const u32 rw_group,
const u32 phase)
{
int ret;
/* Set a particular DQ/DQS phase. */
- scc_mgr_set_dqdqs_output_phase_all_ranks(rw_group, phase);
+ scc_mgr_set_dqdqs_output_phase_all_ranks(seq, rw_group, phase);
debug_cond(DLEVEL >= 1, "%s:%d guaranteed write: g=%u p=%u\n",
__func__, __LINE__, rw_group, phase);
@@ -2544,16 +2590,16 @@
* Load up the patterns used by read calibration using the
* current DQDQS phase.
*/
- rw_mgr_mem_calibrate_read_load_patterns(0, 1);
+ rw_mgr_mem_calibrate_read_load_patterns(seq, 0, 1);
- if (gbl->phy_debug_mode_flags & PHY_DEBUG_DISABLE_GUARANTEED_READ)
+ if (seq->gbl.phy_debug_mode_flags & PHY_DEBUG_DISABLE_GUARANTEED_READ)
return 0;
/*
* Altera EMI_RM 2015.05.04 :: Figure 1-26
* Back-to-Back reads of the patterns used for calibration.
*/
- ret = rw_mgr_mem_calibrate_read_test_patterns(0, rw_group, 1);
+ ret = rw_mgr_mem_calibrate_read_test_patterns(seq, 0, rw_group, 1);
if (ret)
debug_cond(DLEVEL >= 1,
"%s:%d Guaranteed read test failed: g=%u p=%u\n",
@@ -2569,8 +2615,10 @@
* DQS enable calibration ensures reliable capture of the DQ signal without
* glitches on the DQS line.
*/
-static int rw_mgr_mem_calibrate_dqs_enable_calibration(const u32 rw_group,
- const u32 test_bgn)
+static int
+rw_mgr_mem_calibrate_dqs_enable_calibration(struct socfpga_sdrseq *seq,
+ const u32 rw_group,
+ const u32 test_bgn)
{
/*
* Altera EMI_RM 2015.05.04 :: Figure 1-27
@@ -2578,18 +2626,18 @@
*/
/* We start at zero, so have one less dq to devide among */
- const u32 delay_step = iocfg->io_in_delay_max /
- (rwcfg->mem_dq_per_read_dqs - 1);
+ const u32 delay_step = seq->iocfg->io_in_delay_max /
+ (seq->rwcfg->mem_dq_per_read_dqs - 1);
int ret;
u32 i, p, d, r;
debug("%s:%d (%u,%u)\n", __func__, __LINE__, rw_group, test_bgn);
/* Try different dq_in_delays since the DQ path is shorter than DQS. */
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
for (i = 0, p = test_bgn, d = 0;
- i < rwcfg->mem_dq_per_read_dqs;
+ i < seq->rwcfg->mem_dq_per_read_dqs;
i++, p++, d += delay_step) {
debug_cond(DLEVEL >= 1,
"%s:%d: g=%u r=%u i=%u p=%u d=%u\n",
@@ -2606,15 +2654,15 @@
* Try rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase across different
* dq_in_delay values
*/
- ret = rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(rw_group);
+ ret = rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(seq, rw_group);
debug_cond(DLEVEL >= 1,
"%s:%d: g=%u found=%u; Reseting delay chain to zero\n",
__func__, __LINE__, rw_group, !ret);
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
- scc_mgr_apply_group_dq_in_delay(test_bgn, 0);
+ scc_mgr_apply_group_dq_in_delay(seq, test_bgn, 0);
writel(0, &sdr_scc_mgr->update);
}
@@ -2632,7 +2680,8 @@
* within a group.
*/
static int
-rw_mgr_mem_calibrate_dq_dqs_centering(const u32 rw_group, const u32 test_bgn,
+rw_mgr_mem_calibrate_dq_dqs_centering(struct socfpga_sdrseq *seq,
+ const u32 rw_group, const u32 test_bgn,
const int use_read_test,
const int update_fom)
@@ -2646,9 +2695,9 @@
*/
grp_calibrated = 1;
for (rank_bgn = 0, sr = 0;
- rank_bgn < rwcfg->mem_number_of_ranks;
+ rank_bgn < seq->rwcfg->mem_number_of_ranks;
rank_bgn += NUM_RANKS_PER_SHADOW_REG, sr++) {
- ret = rw_mgr_mem_calibrate_vfifo_center(rank_bgn, rw_group,
+ ret = rw_mgr_mem_calibrate_vfifo_center(seq, rank_bgn, rw_group,
test_bgn,
use_read_test,
update_fom);
@@ -2679,7 +2728,8 @@
* - DQS input phase and DQS input delay (DQ/DQS Centering)
* - we also do a per-bit deskew on the DQ lines.
*/
-static int rw_mgr_mem_calibrate_vfifo(const u32 rw_group, const u32 test_bgn)
+static int rw_mgr_mem_calibrate_vfifo(struct socfpga_sdrseq *seq,
+ const u32 rw_group, const u32 test_bgn)
{
u32 p, d;
u32 dtaps_per_ptap;
@@ -2697,8 +2747,9 @@
failed_substage = CAL_SUBSTAGE_GUARANTEED_READ;
/* USER Determine number of delay taps for each phase tap. */
- dtaps_per_ptap = DIV_ROUND_UP(iocfg->delay_per_opa_tap,
- iocfg->delay_per_dqs_en_dchain_tap) - 1;
+ dtaps_per_ptap = DIV_ROUND_UP(seq->iocfg->delay_per_opa_tap,
+ seq->iocfg->delay_per_dqs_en_dchain_tap)
+ - 1;
for (d = 0; d <= dtaps_per_ptap; d += 2) {
/*
@@ -2708,18 +2759,22 @@
* output side yet.
*/
if (d > 0) {
- scc_mgr_apply_group_all_out_delay_add_all_ranks(
- rw_group, d);
+ scc_mgr_apply_group_all_out_delay_add_all_ranks(seq,
+ rw_group,
+ d);
}
- for (p = 0; p <= iocfg->dqdqs_out_phase_max; p++) {
+ for (p = 0; p <= seq->iocfg->dqdqs_out_phase_max; p++) {
/* 1) Guaranteed Write */
- ret = rw_mgr_mem_calibrate_guaranteed_write(rw_group, p);
+ ret = rw_mgr_mem_calibrate_guaranteed_write(seq,
+ rw_group,
+ p);
if (ret)
break;
/* 2) DQS Enable Calibration */
- ret = rw_mgr_mem_calibrate_dqs_enable_calibration(rw_group,
+ ret = rw_mgr_mem_calibrate_dqs_enable_calibration(seq,
+ rw_group,
test_bgn);
if (ret) {
failed_substage = CAL_SUBSTAGE_DQS_EN_PHASE;
@@ -2731,8 +2786,10 @@
* If doing read after write calibration, do not update
* FOM now. Do it then.
*/
- ret = rw_mgr_mem_calibrate_dq_dqs_centering(rw_group,
- test_bgn, 1, 0);
+ ret = rw_mgr_mem_calibrate_dq_dqs_centering(seq,
+ rw_group,
+ test_bgn,
+ 1, 0);
if (ret) {
failed_substage = CAL_SUBSTAGE_VFIFO_CENTER;
continue;
@@ -2744,7 +2801,8 @@
}
/* Calibration Stage 1 failed. */
- set_failing_group_stage(rw_group, CAL_STAGE_VFIFO, failed_substage);
+ set_failing_group_stage(seq, rw_group, CAL_STAGE_VFIFO,
+ failed_substage);
return 0;
/* Calibration Stage 1 completed OK. */
@@ -2755,7 +2813,7 @@
* first case).
*/
if (d > 2)
- scc_mgr_zero_group(rw_group, 1);
+ scc_mgr_zero_group(seq, rw_group, 1);
return 1;
}
@@ -2770,7 +2828,8 @@
* This function implements UniPHY calibration Stage 3, as explained in
* detail in Altera EMI_RM 2015.05.04 , "UniPHY Calibration Stages".
*/
-static int rw_mgr_mem_calibrate_vfifo_end(const u32 rw_group,
+static int rw_mgr_mem_calibrate_vfifo_end(struct socfpga_sdrseq *seq,
+ const u32 rw_group,
const u32 test_bgn)
{
int ret;
@@ -2782,9 +2841,10 @@
reg_file_set_stage(CAL_STAGE_VFIFO_AFTER_WRITES);
reg_file_set_sub_stage(CAL_SUBSTAGE_VFIFO_CENTER);
- ret = rw_mgr_mem_calibrate_dq_dqs_centering(rw_group, test_bgn, 0, 1);
+ ret = rw_mgr_mem_calibrate_dq_dqs_centering(seq, rw_group, test_bgn, 0,
+ 1);
if (ret)
- set_failing_group_stage(rw_group,
+ set_failing_group_stage(seq, rw_group,
CAL_STAGE_VFIFO_AFTER_WRITES,
CAL_SUBSTAGE_VFIFO_CENTER);
return ret;
@@ -2799,7 +2859,7 @@
* detail in Altera EMI_RM 2015.05.04 , "UniPHY Calibration Stages".
* Calibrate LFIFO to find smallest read latency.
*/
-static u32 rw_mgr_mem_calibrate_lfifo(void)
+static u32 rw_mgr_mem_calibrate_lfifo(struct socfpga_sdrseq *seq)
{
int found_one = 0;
@@ -2810,14 +2870,15 @@
reg_file_set_sub_stage(CAL_SUBSTAGE_READ_LATENCY);
/* Load up the patterns used by read calibration for all ranks */
- rw_mgr_mem_calibrate_read_load_patterns(0, 1);
+ rw_mgr_mem_calibrate_read_load_patterns(seq, 0, 1);
do {
- writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
+ writel(seq->gbl.curr_read_lat, &phy_mgr_cfg->phy_rlat);
debug_cond(DLEVEL >= 2, "%s:%d lfifo: read_lat=%u",
- __func__, __LINE__, gbl->curr_read_lat);
+ __func__, __LINE__, seq->gbl.curr_read_lat);
- if (!rw_mgr_mem_calibrate_read_test_all_ranks(0, NUM_READ_TESTS,
+ if (!rw_mgr_mem_calibrate_read_test_all_ranks(seq, 0,
+ NUM_READ_TESTS,
PASS_ALL_BITS, 1))
break;
@@ -2826,26 +2887,26 @@
* Reduce read latency and see if things are
* working correctly.
*/
- gbl->curr_read_lat--;
- } while (gbl->curr_read_lat > 0);
+ seq->gbl.curr_read_lat--;
+ } while (seq->gbl.curr_read_lat > 0);
/* Reset the fifos to get pointers to known state. */
writel(0, &phy_mgr_cmd->fifo_reset);
if (found_one) {
/* Add a fudge factor to the read latency that was determined */
- gbl->curr_read_lat += 2;
- writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
+ seq->gbl.curr_read_lat += 2;
+ writel(seq->gbl.curr_read_lat, &phy_mgr_cfg->phy_rlat);
debug_cond(DLEVEL >= 2,
"%s:%d lfifo: success: using read_lat=%u\n",
- __func__, __LINE__, gbl->curr_read_lat);
+ __func__, __LINE__, seq->gbl.curr_read_lat);
} else {
- set_failing_group_stage(0xff, CAL_STAGE_LFIFO,
+ set_failing_group_stage(seq, 0xff, CAL_STAGE_LFIFO,
CAL_SUBSTAGE_READ_LATENCY);
debug_cond(DLEVEL >= 2,
"%s:%d lfifo: failed at initial read_lat=%u\n",
- __func__, __LINE__, gbl->curr_read_lat);
+ __func__, __LINE__, seq->gbl.curr_read_lat);
}
return found_one;
@@ -2853,7 +2914,8 @@
/**
* search_window() - Search for the/part of the window with DM/DQS shift
- * @search_dm: If 1, search for the DM shift, if 0, search for DQS shift
+ * @search_dm: If 1, search for the DM shift, if 0, search for DQS
+ * shift
* @rank_bgn: Rank number
* @write_group: Write Group
* @bgn_curr: Current window begin
@@ -2865,20 +2927,21 @@
*
* Search for the/part of the window with DM/DQS shift.
*/
-static void search_window(const int search_dm,
- const u32 rank_bgn, const u32 write_group,
- int *bgn_curr, int *end_curr, int *bgn_best,
- int *end_best, int *win_best, int new_dqs)
+static void search_window(struct socfpga_sdrseq *seq,
+ const int search_dm, const u32 rank_bgn,
+ const u32 write_group, int *bgn_curr, int *end_curr,
+ int *bgn_best, int *end_best, int *win_best,
+ int new_dqs)
{
u32 bit_chk;
- const int max = iocfg->io_out1_delay_max - new_dqs;
+ const int max = seq->iocfg->io_out1_delay_max - new_dqs;
int d, di;
/* Search for the/part of the window with DM/DQS shift. */
for (di = max; di >= 0; di -= DELTA_D) {
if (search_dm) {
d = di;
- scc_mgr_apply_group_dm_out1_delay(d);
+ scc_mgr_apply_group_dm_out1_delay(seq, d);
} else {
/* For DQS, we go from 0...max */
d = max - di;
@@ -2886,14 +2949,15 @@
* Note: This only shifts DQS, so are we limiting
* ourselves to width of DQ unnecessarily.
*/
- scc_mgr_apply_group_dqs_io_and_oct_out1(write_group,
+ scc_mgr_apply_group_dqs_io_and_oct_out1(seq,
+ write_group,
d + new_dqs);
}
writel(0, &sdr_scc_mgr->update);
- if (rw_mgr_mem_calibrate_write_test(rank_bgn, write_group, 1,
- PASS_ALL_BITS, &bit_chk,
+ if (rw_mgr_mem_calibrate_write_test(seq, rank_bgn, write_group,
+ 1, PASS_ALL_BITS, &bit_chk,
0)) {
/* Set current end of the window. */
*end_curr = search_dm ? -d : d;
@@ -2902,7 +2966,7 @@
* If a starting edge of our window has not been seen
* this is our current start of the DM window.
*/
- if (*bgn_curr == iocfg->io_out1_delay_max + 1)
+ if (*bgn_curr == seq->iocfg->io_out1_delay_max + 1)
*bgn_curr = search_dm ? -d : d;
/*
@@ -2916,8 +2980,8 @@
}
} else {
/* We just saw a failing test. Reset temp edge. */
- *bgn_curr = iocfg->io_out1_delay_max + 1;
- *end_curr = iocfg->io_out1_delay_max + 1;
+ *bgn_curr = seq->iocfg->io_out1_delay_max + 1;
+ *end_curr = seq->iocfg->io_out1_delay_max + 1;
/* Early exit is only applicable to DQS. */
if (search_dm)
@@ -2928,7 +2992,8 @@
* chain space is less than already seen largest
* window we can exit.
*/
- if (*win_best - 1 > iocfg->io_out1_delay_max - new_dqs - d)
+ if (*win_best - 1 > seq->iocfg->io_out1_delay_max
+ - new_dqs - d)
break;
}
}
@@ -2944,22 +3009,23 @@
* certain windows.
*/
static int
-rw_mgr_mem_calibrate_writes_center(const u32 rank_bgn, const u32 write_group,
+rw_mgr_mem_calibrate_writes_center(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn, const u32 write_group,
const u32 test_bgn)
{
int i;
u32 sticky_bit_chk;
u32 min_index;
- int left_edge[rwcfg->mem_dq_per_write_dqs];
- int right_edge[rwcfg->mem_dq_per_write_dqs];
+ int left_edge[seq->rwcfg->mem_dq_per_write_dqs];
+ int right_edge[seq->rwcfg->mem_dq_per_write_dqs];
int mid;
int mid_min, orig_mid_min;
int new_dqs, start_dqs;
int dq_margin, dqs_margin, dm_margin;
- int bgn_curr = iocfg->io_out1_delay_max + 1;
- int end_curr = iocfg->io_out1_delay_max + 1;
- int bgn_best = iocfg->io_out1_delay_max + 1;
- int end_best = iocfg->io_out1_delay_max + 1;
+ int bgn_curr = seq->iocfg->io_out1_delay_max + 1;
+ int end_curr = seq->iocfg->io_out1_delay_max + 1;
+ int bgn_best = seq->iocfg->io_out1_delay_max + 1;
+ int end_best = seq->iocfg->io_out1_delay_max + 1;
int win_best = 0;
int ret;
@@ -2970,37 +3036,39 @@
start_dqs = readl((SDR_PHYGRP_SCCGRP_ADDRESS |
SCC_MGR_IO_OUT1_DELAY_OFFSET) +
- (rwcfg->mem_dq_per_write_dqs << 2));
+ (seq->rwcfg->mem_dq_per_write_dqs << 2));
/* Per-bit deskew. */
/*
* Set the left and right edge of each bit to an illegal value.
- * Use (iocfg->io_out1_delay_max + 1) as an illegal value.
+ * Use (seq->iocfg->io_out1_delay_max + 1) as an illegal value.
*/
sticky_bit_chk = 0;
- for (i = 0; i < rwcfg->mem_dq_per_write_dqs; i++) {
- left_edge[i] = iocfg->io_out1_delay_max + 1;
- right_edge[i] = iocfg->io_out1_delay_max + 1;
+ for (i = 0; i < seq->rwcfg->mem_dq_per_write_dqs; i++) {
+ left_edge[i] = seq->iocfg->io_out1_delay_max + 1;
+ right_edge[i] = seq->iocfg->io_out1_delay_max + 1;
}
/* Search for the left edge of the window for each bit. */
- search_left_edge(1, rank_bgn, write_group, 0, test_bgn,
+ search_left_edge(seq, 1, rank_bgn, write_group, 0, test_bgn,
&sticky_bit_chk,
left_edge, right_edge, 0);
/* Search for the right edge of the window for each bit. */
- ret = search_right_edge(1, rank_bgn, write_group, 0,
+ ret = search_right_edge(seq, 1, rank_bgn, write_group, 0,
start_dqs, 0,
&sticky_bit_chk,
left_edge, right_edge, 0);
if (ret) {
- set_failing_group_stage(test_bgn + ret - 1, CAL_STAGE_WRITES,
+ set_failing_group_stage(seq, test_bgn + ret - 1,
+ CAL_STAGE_WRITES,
CAL_SUBSTAGE_WRITES_CENTER);
return -EINVAL;
}
- min_index = get_window_mid_index(1, left_edge, right_edge, &mid_min);
+ min_index = get_window_mid_index(seq, 1, left_edge, right_edge,
+ &mid_min);
/* Determine the amount we can change DQS (which is -mid_min). */
orig_mid_min = mid_min;
@@ -3011,11 +3079,11 @@
__func__, __LINE__, start_dqs, new_dqs, mid_min);
/* Add delay to bring centre of all DQ windows to the same "level". */
- center_dq_windows(1, left_edge, right_edge, mid_min, orig_mid_min,
+ center_dq_windows(seq, 1, left_edge, right_edge, mid_min, orig_mid_min,
min_index, 0, &dq_margin, &dqs_margin);
/* Move DQS */
- scc_mgr_apply_group_dqs_io_and_oct_out1(write_group, new_dqs);
+ scc_mgr_apply_group_dqs_io_and_oct_out1(seq, write_group, new_dqs);
writel(0, &sdr_scc_mgr->update);
/* Centre DM */
@@ -3023,17 +3091,17 @@
/*
* Set the left and right edge of each bit to an illegal value.
- * Use (iocfg->io_out1_delay_max + 1) as an illegal value.
+ * Use (seq->iocfg->io_out1_delay_max + 1) as an illegal value.
*/
- left_edge[0] = iocfg->io_out1_delay_max + 1;
- right_edge[0] = iocfg->io_out1_delay_max + 1;
+ left_edge[0] = seq->iocfg->io_out1_delay_max + 1;
+ right_edge[0] = seq->iocfg->io_out1_delay_max + 1;
/* Search for the/part of the window with DM shift. */
- search_window(1, rank_bgn, write_group, &bgn_curr, &end_curr,
+ search_window(seq, 1, rank_bgn, write_group, &bgn_curr, &end_curr,
&bgn_best, &end_best, &win_best, 0);
/* Reset DM delay chains to 0. */
- scc_mgr_apply_group_dm_out1_delay(0);
+ scc_mgr_apply_group_dm_out1_delay(seq, 0);
/*
* Check to see if the current window nudges up aganist 0 delay.
@@ -3041,12 +3109,12 @@
* search begins as a new search.
*/
if (end_curr != 0) {
- bgn_curr = iocfg->io_out1_delay_max + 1;
- end_curr = iocfg->io_out1_delay_max + 1;
+ bgn_curr = seq->iocfg->io_out1_delay_max + 1;
+ end_curr = seq->iocfg->io_out1_delay_max + 1;
}
/* Search for the/part of the window with DQS shifts. */
- search_window(0, rank_bgn, write_group, &bgn_curr, &end_curr,
+ search_window(seq, 0, rank_bgn, write_group, &bgn_curr, &end_curr,
&bgn_best, &end_best, &win_best, new_dqs);
/* Assign left and right edge for cal and reporting. */
@@ -3057,7 +3125,7 @@
__func__, __LINE__, left_edge[0], right_edge[0]);
/* Move DQS (back to orig). */
- scc_mgr_apply_group_dqs_io_and_oct_out1(write_group, new_dqs);
+ scc_mgr_apply_group_dqs_io_and_oct_out1(seq, write_group, new_dqs);
/* Move DM */
@@ -3074,7 +3142,7 @@
else
dm_margin = left_edge[0] - mid;
- scc_mgr_apply_group_dm_out1_delay(mid);
+ scc_mgr_apply_group_dm_out1_delay(seq, mid);
writel(0, &sdr_scc_mgr->update);
debug_cond(DLEVEL >= 2,
@@ -3082,7 +3150,7 @@
__func__, __LINE__, left_edge[0], right_edge[0],
mid, dm_margin);
/* Export values. */
- gbl->fom_out += dq_margin + dqs_margin;
+ seq->gbl.fom_out += dq_margin + dqs_margin;
debug_cond(DLEVEL >= 2,
"%s:%d write_center: dq_margin=%d dqs_margin=%d dm_margin=%d\n",
@@ -3111,7 +3179,8 @@
* This function implements UniPHY calibration Stage 2, as explained in
* detail in Altera EMI_RM 2015.05.04 , "UniPHY Calibration Stages".
*/
-static int rw_mgr_mem_calibrate_writes(const u32 rank_bgn, const u32 group,
+static int rw_mgr_mem_calibrate_writes(struct socfpga_sdrseq *seq,
+ const u32 rank_bgn, const u32 group,
const u32 test_bgn)
{
int ret;
@@ -3123,9 +3192,10 @@
reg_file_set_stage(CAL_STAGE_WRITES);
reg_file_set_sub_stage(CAL_SUBSTAGE_WRITES_CENTER);
- ret = rw_mgr_mem_calibrate_writes_center(rank_bgn, group, test_bgn);
+ ret = rw_mgr_mem_calibrate_writes_center(seq, rank_bgn, group,
+ test_bgn);
if (ret)
- set_failing_group_stage(group, CAL_STAGE_WRITES,
+ set_failing_group_stage(seq, group, CAL_STAGE_WRITES,
CAL_SUBSTAGE_WRITES_CENTER);
return ret;
@@ -3136,29 +3206,30 @@
*
* Precharge all banks and activate row 0 in bank "000..." and bank "111...".
*/
-static void mem_precharge_and_activate(void)
+static void mem_precharge_and_activate(struct socfpga_sdrseq *seq)
{
int r;
- for (r = 0; r < rwcfg->mem_number_of_ranks; r++) {
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks; r++) {
/* Set rank. */
- set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_OFF);
+ set_rank_and_odt_mask(seq, r, RW_MGR_ODT_MODE_OFF);
/* Precharge all banks. */
- writel(rwcfg->precharge_all, SDR_PHYGRP_RWMGRGRP_ADDRESS |
+ writel(seq->rwcfg->precharge_all, SDR_PHYGRP_RWMGRGRP_ADDRESS |
RW_MGR_RUN_SINGLE_GROUP_OFFSET);
writel(0x0F, &sdr_rw_load_mgr_regs->load_cntr0);
- writel(rwcfg->activate_0_and_1_wait1,
+ writel(seq->rwcfg->activate_0_and_1_wait1,
&sdr_rw_load_jump_mgr_regs->load_jump_add0);
writel(0x0F, &sdr_rw_load_mgr_regs->load_cntr1);
- writel(rwcfg->activate_0_and_1_wait2,
+ writel(seq->rwcfg->activate_0_and_1_wait2,
&sdr_rw_load_jump_mgr_regs->load_jump_add1);
/* Activate rows. */
- writel(rwcfg->activate_0_and_1, SDR_PHYGRP_RWMGRGRP_ADDRESS |
- RW_MGR_RUN_SINGLE_GROUP_OFFSET);
+ writel(seq->rwcfg->activate_0_and_1,
+ SDR_PHYGRP_RWMGRGRP_ADDRESS |
+ RW_MGR_RUN_SINGLE_GROUP_OFFSET);
}
}
@@ -3167,14 +3238,15 @@
*
* Configure memory RLAT and WLAT parameters.
*/
-static void mem_init_latency(void)
+static void mem_init_latency(struct socfpga_sdrseq *seq)
{
/*
* For AV/CV, LFIFO is hardened and always runs at full rate
* so max latency in AFI clocks, used here, is correspondingly
* smaller.
*/
- const u32 max_latency = (1 << misccfg->max_latency_count_width) - 1;
+ const u32 max_latency = (1 << seq->misccfg->max_latency_count_width)
+ - 1;
u32 rlat, wlat;
debug("%s:%d\n", __func__, __LINE__);
@@ -3186,17 +3258,17 @@
wlat = readl(&data_mgr->t_wl_add);
wlat += readl(&data_mgr->mem_t_add);
- gbl->rw_wl_nop_cycles = wlat - 1;
+ seq->gbl.rw_wl_nop_cycles = wlat - 1;
/* Read in readl latency. */
rlat = readl(&data_mgr->t_rl_add);
/* Set a pretty high read latency initially. */
- gbl->curr_read_lat = rlat + 16;
- if (gbl->curr_read_lat > max_latency)
- gbl->curr_read_lat = max_latency;
+ seq->gbl.curr_read_lat = rlat + 16;
+ if (seq->gbl.curr_read_lat > max_latency)
+ seq->gbl.curr_read_lat = max_latency;
- writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
+ writel(seq->gbl.curr_read_lat, &phy_mgr_cfg->phy_rlat);
/* Advertise write latency. */
writel(wlat, &phy_mgr_cfg->afi_wlat);
@@ -3207,22 +3279,22 @@
*
* Set VFIFO and LFIFO to instant-on settings in skip calibration mode.
*/
-static void mem_skip_calibrate(void)
+static void mem_skip_calibrate(struct socfpga_sdrseq *seq)
{
u32 vfifo_offset;
u32 i, j, r;
debug("%s:%d\n", __func__, __LINE__);
/* Need to update every shadow register set used by the interface */
- for (r = 0; r < rwcfg->mem_number_of_ranks;
+ for (r = 0; r < seq->rwcfg->mem_number_of_ranks;
r += NUM_RANKS_PER_SHADOW_REG) {
/*
* Set output phase alignment settings appropriate for
* skip calibration.
*/
- for (i = 0; i < rwcfg->mem_if_read_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_read_dqs_width; i++) {
scc_mgr_set_dqs_en_phase(i, 0);
- if (iocfg->dll_chain_length == 6)
+ if (seq->iocfg->dll_chain_length == 6)
scc_mgr_set_dqdqs_output_phase(i, 6);
else
scc_mgr_set_dqdqs_output_phase(i, 7);
@@ -3245,20 +3317,22 @@
* Hence, to make DQS aligned to CK, we need to delay
* DQS by:
* (720 - 90 - 180 - 2) *
- * (360 / iocfg->dll_chain_length)
+ * (360 / seq->iocfg->dll_chain_length)
*
- * Dividing the above by (360 / iocfg->dll_chain_length)
+ * Dividing the above by
+ (360 / seq->iocfg->dll_chain_length)
* gives us the number of ptaps, which simplies to:
*
- * (1.25 * iocfg->dll_chain_length - 2)
+ * (1.25 * seq->iocfg->dll_chain_length - 2)
*/
scc_mgr_set_dqdqs_output_phase(i,
- ((125 * iocfg->dll_chain_length) / 100) - 2);
+ ((125 * seq->iocfg->dll_chain_length)
+ / 100) - 2);
}
writel(0xff, &sdr_scc_mgr->dqs_ena);
writel(0xff, &sdr_scc_mgr->dqs_io_ena);
- for (i = 0; i < rwcfg->mem_if_write_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_write_dqs_width; i++) {
writel(i, SDR_PHYGRP_SCCGRP_ADDRESS |
SCC_MGR_GROUP_COUNTER_OFFSET);
}
@@ -3268,7 +3342,7 @@
}
/* Compensate for simulation model behaviour */
- for (i = 0; i < rwcfg->mem_if_read_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_read_dqs_width; i++) {
scc_mgr_set_dqs_bus_in_delay(i, 10);
scc_mgr_load_dqs(i);
}
@@ -3278,7 +3352,7 @@
* ArriaV has hard FIFOs that can only be initialized by incrementing
* in sequencer.
*/
- vfifo_offset = misccfg->calib_vfifo_offset;
+ vfifo_offset = seq->misccfg->calib_vfifo_offset;
for (j = 0; j < vfifo_offset; j++)
writel(0xff, &phy_mgr_cmd->inc_vfifo_hard_phy);
writel(0, &phy_mgr_cmd->fifo_reset);
@@ -3287,8 +3361,8 @@
* For Arria V and Cyclone V with hard LFIFO, we get the skip-cal
* setting from generation-time constant.
*/
- gbl->curr_read_lat = misccfg->calib_lfifo_offset;
- writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
+ seq->gbl.curr_read_lat = seq->misccfg->calib_lfifo_offset;
+ writel(seq->gbl.curr_read_lat, &phy_mgr_cfg->phy_rlat);
}
/**
@@ -3296,7 +3370,7 @@
*
* Perform memory calibration.
*/
-static u32 mem_calibrate(void)
+static u32 mem_calibrate(struct socfpga_sdrseq *seq)
{
u32 i;
u32 rank_bgn, sr;
@@ -3306,25 +3380,25 @@
u32 failing_groups = 0;
u32 group_failed = 0;
- const u32 rwdqs_ratio = rwcfg->mem_if_read_dqs_width /
- rwcfg->mem_if_write_dqs_width;
+ const u32 rwdqs_ratio = seq->rwcfg->mem_if_read_dqs_width /
+ seq->rwcfg->mem_if_write_dqs_width;
debug("%s:%d\n", __func__, __LINE__);
/* Initialize the data settings */
- gbl->error_substage = CAL_SUBSTAGE_NIL;
- gbl->error_stage = CAL_STAGE_NIL;
- gbl->error_group = 0xff;
- gbl->fom_in = 0;
- gbl->fom_out = 0;
+ seq->gbl.error_substage = CAL_SUBSTAGE_NIL;
+ seq->gbl.error_stage = CAL_STAGE_NIL;
+ seq->gbl.error_group = 0xff;
+ seq->gbl.fom_in = 0;
+ seq->gbl.fom_out = 0;
/* Initialize WLAT and RLAT. */
- mem_init_latency();
+ mem_init_latency(seq);
/* Initialize bit slips. */
- mem_precharge_and_activate();
+ mem_precharge_and_activate(seq);
- for (i = 0; i < rwcfg->mem_if_read_dqs_width; i++) {
+ for (i = 0; i < seq->rwcfg->mem_if_read_dqs_width; i++) {
writel(i, SDR_PHYGRP_SCCGRP_ADDRESS |
SCC_MGR_GROUP_COUNTER_OFFSET);
/* Only needed once to set all groups, pins, DQ, DQS, DM. */
@@ -3335,12 +3409,12 @@
}
/* Calibration is skipped. */
- if ((dyn_calib_steps & CALIB_SKIP_ALL) == CALIB_SKIP_ALL) {
+ if ((seq->dyn_calib_steps & CALIB_SKIP_ALL) == CALIB_SKIP_ALL) {
/*
* Set VFIFO and LFIFO to instant-on settings in skip
* calibration mode.
*/
- mem_skip_calibrate();
+ mem_skip_calibrate(seq);
/*
* Do not remove this line as it makes sure all of our
@@ -3356,13 +3430,13 @@
* Zero all delay chain/phase settings for all
* groups and all shadow register sets.
*/
- scc_mgr_zero_all();
+ scc_mgr_zero_all(seq);
run_groups = ~0;
for (write_group = 0, write_test_bgn = 0; write_group
- < rwcfg->mem_if_write_dqs_width; write_group++,
- write_test_bgn += rwcfg->mem_dq_per_write_dqs) {
+ < seq->rwcfg->mem_if_write_dqs_width; write_group++,
+ write_test_bgn += seq->rwcfg->mem_dq_per_write_dqs) {
/* Initialize the group failure */
group_failed = 0;
@@ -3376,22 +3450,22 @@
writel(write_group, SDR_PHYGRP_SCCGRP_ADDRESS |
SCC_MGR_GROUP_COUNTER_OFFSET);
- scc_mgr_zero_group(write_group, 0);
+ scc_mgr_zero_group(seq, write_group, 0);
for (read_group = write_group * rwdqs_ratio,
read_test_bgn = 0;
read_group < (write_group + 1) * rwdqs_ratio;
read_group++,
- read_test_bgn += rwcfg->mem_dq_per_read_dqs) {
+ read_test_bgn += seq->rwcfg->mem_dq_per_read_dqs) {
if (STATIC_CALIB_STEPS & CALIB_SKIP_VFIFO)
continue;
/* Calibrate the VFIFO */
- if (rw_mgr_mem_calibrate_vfifo(read_group,
+ if (rw_mgr_mem_calibrate_vfifo(seq, read_group,
read_test_bgn))
continue;
- if (!(gbl->phy_debug_mode_flags &
+ if (!(seq->gbl.phy_debug_mode_flags &
PHY_DEBUG_SWEEP_ALL_GROUPS))
return 0;
@@ -3401,7 +3475,7 @@
/* Calibrate the output side */
for (rank_bgn = 0, sr = 0;
- rank_bgn < rwcfg->mem_number_of_ranks;
+ rank_bgn < seq->rwcfg->mem_number_of_ranks;
rank_bgn += NUM_RANKS_PER_SHADOW_REG, sr++) {
if (STATIC_CALIB_STEPS & CALIB_SKIP_WRITES)
continue;
@@ -3412,13 +3486,13 @@
continue;
/* Calibrate WRITEs */
- if (!rw_mgr_mem_calibrate_writes(rank_bgn,
+ if (!rw_mgr_mem_calibrate_writes(seq, rank_bgn,
write_group,
write_test_bgn))
continue;
group_failed = 1;
- if (!(gbl->phy_debug_mode_flags &
+ if (!(seq->gbl.phy_debug_mode_flags &
PHY_DEBUG_SWEEP_ALL_GROUPS))
return 0;
}
@@ -3431,15 +3505,16 @@
read_test_bgn = 0;
read_group < (write_group + 1) * rwdqs_ratio;
read_group++,
- read_test_bgn += rwcfg->mem_dq_per_read_dqs) {
+ read_test_bgn += seq->rwcfg->mem_dq_per_read_dqs) {
if (STATIC_CALIB_STEPS & CALIB_SKIP_WRITES)
continue;
- if (!rw_mgr_mem_calibrate_vfifo_end(read_group,
+ if (!rw_mgr_mem_calibrate_vfifo_end(seq,
+ read_group,
read_test_bgn))
continue;
- if (!(gbl->phy_debug_mode_flags &
+ if (!(seq->gbl.phy_debug_mode_flags &
PHY_DEBUG_SWEEP_ALL_GROUPS))
return 0;
@@ -3465,7 +3540,7 @@
continue;
/* Calibrate the LFIFO */
- if (!rw_mgr_mem_calibrate_lfifo())
+ if (!rw_mgr_mem_calibrate_lfifo(seq))
return 0;
}
@@ -3482,7 +3557,7 @@
*
* This function triggers the entire memory calibration procedure.
*/
-static int run_mem_calibrate(void)
+static int run_mem_calibrate(struct socfpga_sdrseq *seq)
{
int pass;
u32 ctrl_cfg;
@@ -3497,17 +3572,17 @@
writel(ctrl_cfg & ~SDR_CTRLGRP_CTRLCFG_DQSTRKEN_MASK,
&sdr_ctrl->ctrl_cfg);
- phy_mgr_initialize();
- rw_mgr_mem_initialize();
+ phy_mgr_initialize(seq);
+ rw_mgr_mem_initialize(seq);
/* Perform the actual memory calibration. */
- pass = mem_calibrate();
+ pass = mem_calibrate(seq);
- mem_precharge_and_activate();
+ mem_precharge_and_activate(seq);
writel(0, &phy_mgr_cmd->fifo_reset);
/* Handoff. */
- rw_mgr_mem_handoff();
+ rw_mgr_mem_handoff(seq);
/*
* In Hard PHY this is a 2-bit control:
* 0: AFI Mux Select
@@ -3528,25 +3603,25 @@
* This function reports the results of the memory calibration
* and writes debug information into the register file.
*/
-static void debug_mem_calibrate(int pass)
+static void debug_mem_calibrate(struct socfpga_sdrseq *seq, int pass)
{
u32 debug_info;
if (pass) {
debug("%s: CALIBRATION PASSED\n", __FILE__);
- gbl->fom_in /= 2;
- gbl->fom_out /= 2;
+ seq->gbl.fom_in /= 2;
+ seq->gbl.fom_out /= 2;
- if (gbl->fom_in > 0xff)
- gbl->fom_in = 0xff;
+ if (seq->gbl.fom_in > 0xff)
+ seq->gbl.fom_in = 0xff;
- if (gbl->fom_out > 0xff)
- gbl->fom_out = 0xff;
+ if (seq->gbl.fom_out > 0xff)
+ seq->gbl.fom_out = 0xff;
/* Update the FOM in the register file */
- debug_info = gbl->fom_in;
- debug_info |= gbl->fom_out << 8;
+ debug_info = seq->gbl.fom_in;
+ debug_info |= seq->gbl.fom_out << 8;
writel(debug_info, &sdr_reg_file->fom);
writel(debug_info, &phy_mgr_cfg->cal_debug_info);
@@ -3554,18 +3629,18 @@
} else {
debug("%s: CALIBRATION FAILED\n", __FILE__);
- debug_info = gbl->error_stage;
- debug_info |= gbl->error_substage << 8;
- debug_info |= gbl->error_group << 16;
+ debug_info = seq->gbl.error_stage;
+ debug_info |= seq->gbl.error_substage << 8;
+ debug_info |= seq->gbl.error_group << 16;
writel(debug_info, &sdr_reg_file->failing_stage);
writel(debug_info, &phy_mgr_cfg->cal_debug_info);
writel(PHY_MGR_CAL_FAIL, &phy_mgr_cfg->cal_status);
/* Update the failing group/stage in the register file */
- debug_info = gbl->error_stage;
- debug_info |= gbl->error_substage << 8;
- debug_info |= gbl->error_group << 16;
+ debug_info = seq->gbl.error_stage;
+ debug_info |= seq->gbl.error_substage << 8;
+ debug_info |= seq->gbl.error_group << 16;
writel(debug_info, &sdr_reg_file->failing_stage);
}
@@ -3599,10 +3674,11 @@
*
* Initialize SDR register file.
*/
-static void initialize_reg_file(void)
+static void initialize_reg_file(struct socfpga_sdrseq *seq)
{
/* Initialize the register file with the correct data */
- writel(misccfg->reg_file_init_seq_signature, &sdr_reg_file->signature);
+ writel(seq->misccfg->reg_file_init_seq_signature,
+ &sdr_reg_file->signature);
writel(0, &sdr_reg_file->debug_data_addr);
writel(0, &sdr_reg_file->cur_stage);
writel(0, &sdr_reg_file->fom);
@@ -3666,15 +3742,15 @@
*
* Initialize the register file with usable initial data.
*/
-static void initialize_tracking(void)
+static void initialize_tracking(struct socfpga_sdrseq *seq)
{
/*
* Initialize the register file with the correct data.
* Compute usable version of value in case we skip full
* computation later.
*/
- writel(DIV_ROUND_UP(iocfg->delay_per_opa_tap,
- iocfg->delay_per_dchain_tap) - 1,
+ writel(DIV_ROUND_UP(seq->iocfg->delay_per_opa_tap,
+ seq->iocfg->delay_per_dchain_tap) - 1,
&sdr_reg_file->dtaps_per_ptap);
/* trk_sample_count */
@@ -3693,23 +3769,22 @@
&sdr_reg_file->delays);
/* mux delay */
- writel((rwcfg->idle << 24) | (rwcfg->activate_1 << 16) |
- (rwcfg->sgle_read << 8) | (rwcfg->precharge_all << 0),
+ writel((seq->rwcfg->idle << 24) | (seq->rwcfg->activate_1 << 16) |
+ (seq->rwcfg->sgle_read << 8) | (seq->rwcfg->precharge_all << 0),
&sdr_reg_file->trk_rw_mgr_addr);
- writel(rwcfg->mem_if_read_dqs_width,
+ writel(seq->rwcfg->mem_if_read_dqs_width,
&sdr_reg_file->trk_read_dqs_width);
/* trefi [7:0] */
- writel((rwcfg->refresh_all << 24) | (1000 << 0),
+ writel((seq->rwcfg->refresh_all << 24) | (1000 << 0),
&sdr_reg_file->trk_rfsh);
}
int sdram_calibration_full(struct socfpga_sdr *sdr)
{
- struct param_type my_param;
- struct gbl_type my_gbl;
u32 pass;
+ struct socfpga_sdrseq seq;
/*
* For size reasons, this file uses hard coded addresses.
@@ -3718,60 +3793,61 @@
if (sdr != (struct socfpga_sdr *)SOCFPGA_SDR_ADDRESS)
return -ENODEV;
- memset(&my_param, 0, sizeof(my_param));
- memset(&my_gbl, 0, sizeof(my_gbl));
+ memset(&seq, 0, sizeof(seq));
- param = &my_param;
- gbl = &my_gbl;
-
- rwcfg = socfpga_get_sdram_rwmgr_config();
- iocfg = socfpga_get_sdram_io_config();
- misccfg = socfpga_get_sdram_misc_config();
+ seq.rwcfg = socfpga_get_sdram_rwmgr_config();
+ seq.iocfg = socfpga_get_sdram_io_config();
+ seq.misccfg = socfpga_get_sdram_misc_config();
/* Set the calibration enabled by default */
- gbl->phy_debug_mode_flags |= PHY_DEBUG_ENABLE_CAL_RPT;
+ seq.gbl.phy_debug_mode_flags |= PHY_DEBUG_ENABLE_CAL_RPT;
/*
* Only sweep all groups (regardless of fail state) by default
* Set enabled read test by default.
*/
#if DISABLE_GUARANTEED_READ
- gbl->phy_debug_mode_flags |= PHY_DEBUG_DISABLE_GUARANTEED_READ;
+ seq.gbl.phy_debug_mode_flags |= PHY_DEBUG_DISABLE_GUARANTEED_READ;
#endif
/* Initialize the register file */
- initialize_reg_file();
+ initialize_reg_file(&seq);
/* Initialize any PHY CSR */
initialize_hps_phy();
scc_mgr_initialize();
- initialize_tracking();
+ initialize_tracking(&seq);
debug("%s: Preparing to start memory calibration\n", __FILE__);
debug("%s:%d\n", __func__, __LINE__);
debug_cond(DLEVEL >= 1,
"DDR3 FULL_RATE ranks=%u cs/dimm=%u dq/dqs=%u,%u vg/dqs=%u,%u ",
- rwcfg->mem_number_of_ranks, rwcfg->mem_number_of_cs_per_dimm,
- rwcfg->mem_dq_per_read_dqs, rwcfg->mem_dq_per_write_dqs,
- rwcfg->mem_virtual_groups_per_read_dqs,
- rwcfg->mem_virtual_groups_per_write_dqs);
+ seq.rwcfg->mem_number_of_ranks,
+ seq.rwcfg->mem_number_of_cs_per_dimm,
+ seq.rwcfg->mem_dq_per_read_dqs,
+ seq.rwcfg->mem_dq_per_write_dqs,
+ seq.rwcfg->mem_virtual_groups_per_read_dqs,
+ seq.rwcfg->mem_virtual_groups_per_write_dqs);
debug_cond(DLEVEL >= 1,
"dqs=%u,%u dq=%u dm=%u ptap_delay=%u dtap_delay=%u ",
- rwcfg->mem_if_read_dqs_width, rwcfg->mem_if_write_dqs_width,
- rwcfg->mem_data_width, rwcfg->mem_data_mask_width,
- iocfg->delay_per_opa_tap, iocfg->delay_per_dchain_tap);
+ seq.rwcfg->mem_if_read_dqs_width,
+ seq.rwcfg->mem_if_write_dqs_width,
+ seq.rwcfg->mem_data_width, seq.rwcfg->mem_data_mask_width,
+ seq.iocfg->delay_per_opa_tap,
+ seq.iocfg->delay_per_dchain_tap);
debug_cond(DLEVEL >= 1, "dtap_dqsen_delay=%u, dll=%u",
- iocfg->delay_per_dqs_en_dchain_tap, iocfg->dll_chain_length);
+ seq.iocfg->delay_per_dqs_en_dchain_tap,
+ seq.iocfg->dll_chain_length);
debug_cond(DLEVEL >= 1,
"max values: en_p=%u dqdqs_p=%u en_d=%u dqs_in_d=%u ",
- iocfg->dqs_en_phase_max, iocfg->dqdqs_out_phase_max,
- iocfg->dqs_en_delay_max, iocfg->dqs_in_delay_max);
+ seq.iocfg->dqs_en_phase_max, seq.iocfg->dqdqs_out_phase_max,
+ seq.iocfg->dqs_en_delay_max, seq.iocfg->dqs_in_delay_max);
debug_cond(DLEVEL >= 1, "io_in_d=%u io_out1_d=%u io_out2_d=%u ",
- iocfg->io_in_delay_max, iocfg->io_out1_delay_max,
- iocfg->io_out2_delay_max);
+ seq.iocfg->io_in_delay_max, seq.iocfg->io_out1_delay_max,
+ seq.iocfg->io_out2_delay_max);
debug_cond(DLEVEL >= 1, "dqs_in_reserve=%u dqs_out_reserve=%u\n",
- iocfg->dqs_in_reserve, iocfg->dqs_out_reserve);
+ seq.iocfg->dqs_in_reserve, seq.iocfg->dqs_out_reserve);
hc_initialize_rom_data();
@@ -3783,17 +3859,17 @@
* Load global needed for those actions that require
* some dynamic calibration support.
*/
- dyn_calib_steps = STATIC_CALIB_STEPS;
+ seq.dyn_calib_steps = STATIC_CALIB_STEPS;
/*
* Load global to allow dynamic selection of delay loop settings
* based on calibration mode.
*/
- if (!(dyn_calib_steps & CALIB_SKIP_DELAY_LOOPS))
- skip_delay_mask = 0xff;
+ if (!(seq.dyn_calib_steps & CALIB_SKIP_DELAY_LOOPS))
+ seq.skip_delay_mask = 0xff;
else
- skip_delay_mask = 0x0;
+ seq.skip_delay_mask = 0x0;
- pass = run_mem_calibrate();
- debug_mem_calibrate(pass);
+ pass = run_mem_calibrate(&seq);
+ debug_mem_calibrate(&seq, pass);
return pass;
}
diff --git a/drivers/ddr/altera/sequencer.h b/drivers/ddr/altera/sequencer.h
index d7f6935..4a03c3f 100644
--- a/drivers/ddr/altera/sequencer.h
+++ b/drivers/ddr/altera/sequencer.h
@@ -6,14 +6,16 @@
#ifndef _SEQUENCER_H_
#define _SEQUENCER_H_
-#define RW_MGR_NUM_DM_PER_WRITE_GROUP (rwcfg->mem_data_mask_width \
- / rwcfg->mem_if_write_dqs_width)
-#define RW_MGR_NUM_TRUE_DM_PER_WRITE_GROUP (rwcfg->true_mem_data_mask_width \
- / rwcfg->mem_if_write_dqs_width)
+#define RW_MGR_NUM_DM_PER_WRITE_GROUP (seq->rwcfg->mem_data_mask_width \
+ / seq->rwcfg->mem_if_write_dqs_width)
+#define RW_MGR_NUM_TRUE_DM_PER_WRITE_GROUP ( \
+ seq->rwcfg->true_mem_data_mask_width \
+ / seq->rwcfg->mem_if_write_dqs_width)
-#define RW_MGR_NUM_DQS_PER_WRITE_GROUP (rwcfg->mem_if_read_dqs_width \
- / rwcfg->mem_if_write_dqs_width)
-#define NUM_RANKS_PER_SHADOW_REG (rwcfg->mem_number_of_ranks / NUM_SHADOW_REGS)
+#define RW_MGR_NUM_DQS_PER_WRITE_GROUP (seq->rwcfg->mem_if_read_dqs_width \
+ / seq->rwcfg->mem_if_write_dqs_width)
+#define NUM_RANKS_PER_SHADOW_REG (seq->rwcfg->mem_number_of_ranks \
+ / NUM_SHADOW_REGS)
#define RW_MGR_RUN_SINGLE_GROUP_OFFSET 0x0
#define RW_MGR_RUN_ALL_GROUPS_OFFSET 0x0400
@@ -256,6 +258,26 @@
u8 _align9[0xea4];
};
+struct socfpga_sdrseq {
+ const struct socfpga_sdram_rw_mgr_config *rwcfg;
+ const struct socfpga_sdram_io_config *iocfg;
+ const struct socfpga_sdram_misc_config *misccfg;
+ /* calibration steps requested by the rtl */
+ u16 dyn_calib_steps;
+ /*
+ * To make CALIB_SKIP_DELAY_LOOPS a dynamic conditional option
+ * instead of static, we use boolean logic to select between
+ * non-skip and skip values
+ *
+ * The mask is set to include all bits when not-skipping, but is
+ * zero when skipping
+ */
+
+ u16 skip_delay_mask; /* mask off bits when skipping/not-skipping */
+ struct gbl_type gbl;
+ struct param_type param;
+};
+
int sdram_calibration_full(struct socfpga_sdr *sdr);
#endif /* _SEQUENCER_H_ */